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September 2018
DAVID L. MCDOWELL Regents’ Professor and Carter N. Paden, Jr. Distinguished Chair in Metals Processing
The George W. Woodruff School of Mechanical Engineering
Joint Appointment, School of Materials Science and Engineering
Georgia Institute of Technology
I. EARNED DEGREES
Ph.D. May 1983 University of Illinois (UIUC) Mechanical Engineering
M.S. Jan. 1981 University of Illinois (UIUC) Mechanical Engineering
B.S. May 1979 University of Nebraska Mechanical Engineering
II. EMPLOYMENT HISTORY
Georgia Institute of Technology:
Executive Director, Georgia Tech Institute for Materials (IMat) 2012-present
Carter N. Paden, Jr. Distinguished Chair in Metals Processing 1998-present
Regents' Professor 1996-present
Professor, Mechanical Engineering 1992-1996
Chair, Institute Materials Council 1994-2012
Director, Mechanical Properties Research Laboratory 1992-2012
Associate Professor, Mechanical Engineering 1987-1992
Associate Director, Mechanical Properties Research Laboratory 1983-1992
Assistant Professor, Mechanical Engineering 1983-1987
CURRENT FIELDS OF INTEREST
Microstructure-sensitive computational approaches to variability in fatigue of advanced
alloy systems, including extreme value responses such as HCF and VHCF
Atomistic simulations of dislocation nucleation and reactions at grain boundaries,
including near equilibrium and non-equilibrium structures
Avalanche behavior of competing deformation modes for nanocrystalline materials; grain
size distribution effects on yield and inelastic flow
Constitutive relations for finite strain inelasticity and defect field mechanics in
generalized continuum theories for evolving microstructure of single and polycrystals
Concurrent atomistic and hierarchical continuum multiscale modeling approaches
Dynamic/shock plasticity of metals
Principles and approaches for decision-based, simulation-informed materials design
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III. HONORS AND AWARDS
A. International or National Awards
Metro Atlanta Area Young Engineer-of-the-Year Award, 1986.
Alfred Noble Prize, awarded jointly by ASCE, ASME, IEEE, AIMMPE, and WSE, 1986
for best paper by author under 31 years of age.
NSF Presidential Young Investigator Award, 1986.
Pi Tau Sigma Gold Medal, 1987, awarded for outstanding contributions in Mechanical
Engineering by an individual less than 10 years beyond the B.S. degree.
ASME Henry Hess Award, 1988, for outstanding technical paper by an author under 31
years of age.
SAE Ralph R. Teetor Award, 1986.
ASEE Dow Outstanding Young Faculty Award, 1990.
Selected as one of 15 members (fields of math, physics, chemistry, engineering) of the
Defense Science Study Group, a prestigious, highly competitive two-year appointment
involving study of high level national security issues, 1992-1993. Georgia Tech's first
appointee. Produced report: McDowell, D.L. and Voorhees, P.W., “An Assessment of
the State-of-the-Art in Constitutive Modeling and Hydrocodes for Ballistic Impact and
Blast Waves,” IDA Paper P-2949, 24 May, 1995, pp. IV.25-IV.115.
Medaile de'honneur, Societe Francaise de Metallurgie et de Materiaux (SF2M), 1994.
Named a Fellow of ASME, 1995.
1997 ASME Nadai Award recipient for career contributions to the field of engineering
materials; citation reads “For outstanding contributions to the experimental study and
development of constitutive equations for the rate and temperature dependent inelastic
flow and damage of solids, including cyclic and large strain phenomena, and to basic
understanding and modeling of combined stress state fatigue and fracture processes.”
Invited lecturer for Midwest Mechanics Lecture Series for 1998, delivering a series of
lectures at Purdue, Notre Dame, Illinois, Wisconsin, Michigan, Michigan State,
Minnesota, Northwestern, IIT in Spring and Fall 1998.
Elected as a member of the M&IE Alumni Board for 1999-2002, Dept. of Mechanical
and Industrial Engineering, University of Illinois at Urbana-Champaign.
American Foundrymen’s Society Team Award, USAMP-AMD-DPO Project, 1995-2000.
Elected as a member of the Board of Directors, Society of Engineering Science (SES),
2000-2003.
Elected as Vice President, Society of Engineering Science (SES), 2001.
President of SES, 2002.
Microstructure-Property Model Software selected by R&D Magazine as One of the 100
Most Technologically Significant New Products of the Year (2000), with contributions in
my role as consultant to prime developer Sandia National Laboratories (DOE), through
joint collaboration with the following team: D. Bammann, M. Callabresi, M. Chiesa, M.
Horstemeyer, G. Johnson (UC-Berkeley), J. Lathrop, M. Lusk (Colorado School of
Mines), E. Marin, D. McDowell (Georgia Tech), V. Prantil, R. Regueiro and P. Taylor.
ASTM Committee E.08 Award of Appreciation for outstanding service as the ASTM
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Representative on the U.S. National Committee on Theoretical and Applied Mechanics,
1994-2001, November 2001.
SAIC Student Guidance Award for the paper “Crack Plane Influence on Non-Linear and
Time-Dependent Fracture of Bimaterials” by PhD advisee Ali Page Gordon, 2001.
ASTM Annual Fatigue Lecturer, Miami Beach, FL, Nov. 5, 2002.
Member, College of Engineering Advisory Board, University of Nebraska-Lincoln, 2004-
present.
ASME Materials Division Senior Orr Award (Orr Best Paper Award) for the best fatigue
and fracture paper to appear within the twelve-month period July 2005 through June 2006
in the ASME Journal of Engineering Materials and Technology.
Elected Fellow of the Society of Engineering Science (SES), 2007 (at that time, one of 34
Fellows elected since its inception in 1976).
2008 Khan International Medal for outstanding life-long contributions to the field of
plasticity.
Elected Fellow of ASM International, 2008.
A four day symposium was organized in my honor at Plasticity 2009, the 15th
International Symposium on Plasticity and its Current Applications, held in St. Thomas,
Virgin Islands, January 5-8, 2009.
Distinguished Alumni Award, Department of Mechanical Science and Engineering,
University of Illinois at Urbana-Champaign, April 24, 2009.
Special Issue of the International Journal of Plasticity dedicated to honor contributions of
D.L. McDowell, Volume 26, Issue 9, September 2010, pp. 1277-1420.
Inter-University Mechanics Lecture Tour (Madrid, Granada, Seville, Zaragoza
universities in Spain), November 3-11, 2010 (invited).
Elected Fellow of the American Academy of Mechanics, 2011.
Lifetime Achievement Award, on behalf of the Scientific Committee of Fatigue Damage
of Structural Materials, awarded at the International Conference on Fatigue Damage of
Structural Materials XI, Hyannis, MA, Sept. 20, 2016.
B. Institute or School Awards
Named a Woodruff Faculty Fellow in Mechanical Engineering at Georgia Tech for the
term July 1991-June 1996.
Georgia Tech Faculty Research Author Award, 1993, in recognition of outstanding
publication of results obtained from research conducted at Georgia Tech from January 1,
1988 to December 31, 1992.
Named an Institute Fellow at Georgia Tech, 1994-1999.
Named Regents' Professor, Georgia Tech, 1996-present.
Named Carter N. Paden, Jr. Distinguished Chair in Metals Processing at Georgia Tech,
September 1998.
Georgia Tech Outstanding Doctoral Thesis Advisor Award, 2000, in recognition of the
achievements of a faculty member’s doctoral students who completed all degree
requirements from January 1, 1995 to December 31, 1999.
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Georgia Tech Outstanding Interdisciplinary Activities Award, 2001, in recognition of his
pioneering work in developing interdisciplinary collaborations and programs that have
enhanced research and teaching at Georgia Tech.
Jack M. Zeigler Woodruff School Outstanding Educator Award, 2004.
Awards Received by Students:
Samuel Graham, Jr. - Recipient of the Outstanding Young Investigator Award in 1997
from the International Thermal Conductivity Conference and co-winner of the 1998-99
Luther S. Long III Memorial Award in Engineering Mechanics from Georgia Tech.
Ryan Morrissey - Recipient of outstanding student presentation of research paper award
from the American Society of Testing and Materials (ASTM), Orlando, FL, November
2000.
Carolyn Conner Seepersad – Recipient of GT Sigma Xi Best PhD Thesis Award, 2005
(co-advised with F. Mistree and J.K. Allen). Also recipient of 2010 Regents' Outstanding
Teaching Award in the University of Texas System as Assistant Professor at UT-Austin.
Mahesh Shenoy – Best Poster Award, International Conference on Advanced Materials
Design and Development, December 14-16, 2005, Goa, India.
John Clayton, NSF Fellow, 1999-2002.
Mark Tschopp, NSF Fellow, 2004-2007 and winner of the 2006-07 Luther S. Long III
Memorial Award in Engineering Mechanics from Georgia Tech.
Ryan Austin, National Defense Science and Engineering Graduate (NDSEG) Fellowship,
DoD, 2006-2009.
Mark Tschopp – Recipient of the GT Sigma Xi Best PhD Thesis Award, 2008.
Craig Przybyla – Recipient of ASEE Science, Mathematics, And Research for
Transformation Program (SMART Program) Fellowship, April 2008, sponsored by Air
Force Research Lab - Materiels & Manufacturing located in Wright-Patterson Air Force
Base, OH.
Ryan Austin, SAIC Georgia Tech Student Paper Competition Award, November 2009.
Jeffrey Lloyd, recipient of ASEE Science, Mathematics, And Research for
Transformation Program (SMART Program) Fellowship, June 2011, sponsored by Army
Research Laboratory in Aberdeen, MD.
Jeffrey Lloyd, recipient of the US Army Research Laboratory (ARL) Director's Award
for best graduate student presentation “Steady Plastic Waves in Metals” by winning all
three of the competitions at the division, directorate, and ARL-wide levels, 2012.
Shuozhi Xu – Recipient of GT Sigma Xi Best PhD Thesis Award, 2017.
Shuozhi Xu – Recipient of Elings Prize Fellowship in Science, the California
NanoScience Institute (CNSI) on the UC Santa Barbara, March 2017.
Shuozhi Xu – Graduate Student Award Silver Medal at the 2017 MRS Spring Meeting
held in Phoenix, AZ.
Adrienne Muth - M.R. Mitchell Student Presentation Award, ASTM E.08 Fall Meeting,
Atlanta, GA, November 13-14, 2017.
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IV. RESEARCH, SCHOLARSHIP AND CREATIVE ACTIVITIES
A. Published Books, Book Chapters, and Edited Volumes
A1. Books
1. McDowell, D.L., Panchal, J.H., Choi, H.-J., Seepersad, C.C., Allen, J.K. and
Mistree, F., Integrated Design of Multiscale, Multifunctional Materials and
Products, 1st Edition, Elsevier, Oxford: Butterworth-Heinemann, 2010 (392
pages), ISBN: 978-1-85617-662-0.
A2 Refereed Book Chapters
1. Fox, M.F., Colatrella, C., McDowell, D.L., and Realff, M.L., “Equity in Tenure
and Promotion: An Integrated Institutional Approach." in Transforming Science
and Engineering: Advancing Academic Women, Eds. Abigail Stewart, Janet
Malley, and Danielle Lavaque-Manty, University of Michigan Press, October
2007.
2. Tschopp, M.A., Spearot, D.E., and McDowell, D.L., “Influence of Grain
Boundary Structure on Dislocation Nucleation in FCC Metals,” Dislocations in
Solids, A Tribute to F.R.N. Nabarro, Ed. J.P. Hirth, Elsevier Publ., Vol. 14, 2008,
pp. 43-139.
3. McDowell, D.L., “Microstructure-Sensitive Modeling and Simulation of Fatigue,”
ASM Handbook on Fundamentals of Modeling for Metals Processing, Handbook
Vol. 22A, ASM International, 2009, ISBN 13:978-1-61503-001-0.
4. McDowell, D.L. and Backman, D., “Simulation-Assisted Design and Accelerated
Insertion of Materials,” Ch. 19 in Computational Methods for Microstructure-
Property Relationships, Eds. S. Ghosh and D. Dimiduk, Springer, 2010, ISBN
978-1-4419-0642-7.
5. McDowell, D.L., “Critical Path Issues in ICME,” Models, Databases, and
Simulation Tools Needed for the Realization of Integrated Computational
Materials Engineering, Proc. Symposium held at Materials Science and
Technology 2010, Oct. 18-20, Houston, Tx, S.M. Arnold and T.T. Wong, eds.,
ASM International, 2011, pp. 31-37.
6. McDowell D.L. “Microstructure-Sensitive Computational Structure-Property
Relations in Materials Design,” In: Shin D., Saal J. (eds) Computational
Materials System Design. Springer, Cham, 2018, pp. 1-25,
https://doi.org/10.1007/978-3-319-68280-8_1.
7. McDowell D.L., “Multiscale Crystalline Plasticity for Materials Design,” In:
Shin D., Saal J. (eds) Computational Materials System Design. Springer,
Cham, 2018, pp. 104-145, https://doi.org/10.1007/978-3-319-68280-8_6.
8. McDowell, D.L., “Multiscale Modeling of Interfaces, Dislocations, and
Dislocation Field Plasticity,” in Mesoscale Models: From micro-physics to
macro-interpretation, eds. S. Mesarovic, S. Forest, H. Zbib, CISM-Springer,
Springer Science Business Media, submitted January 2018, revised May 2018.
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A3. Edited Volumes
9. Fracture Mechanics: Twenty-Second Symposium (Volume I), ASTM STP 1131,
Philadelphia, PA, Eds. H.A. Ernst, A. Saxena and D.L. McDowell, 1992.
10. Advances in Multiaxial Fatigue, ASTM STP 1191, Philadelphia, PA, Eds. D.L.
McDowell and J.R., Ellis, 1993.
11. Applications of Continuum Damage Mechanics to Fatigue and Fracture, ASTM
STP 1315, Philadelphia, PA, Ed. D.L. McDowell, 1997.
12. Mixed Mode Crack Behavior, ASTM STP 1359, Philadelphia, PA, Eds. D.L.
McDowell and K.J. Miller, 2000.
A4. Other Parts of Books or Reports
1. Zimmerman, J.A., Jones, R.E., Templeton, J.A., McDowell, D.L., Mayeur, J.R.,
Tucker, G.J., Bammann, D.J., and Gao, H., “Development of Advanced
Continuum Models that Incorporate Nanomechanical Deformation into
Engineering Analysis, Sandia Report SAND2008-6066, September 2008 (244
pages).
B. Refereed Publications
B1. Published and Accepted Journal Articles
1. McDowell, D. L., D. F. Socie, and H. S. Lamba, "Multiaxial Nonproportional
Cyclic Deformation," Low-Cycle Fatigue and Life Prediction, ASTM STP 770,
C. Amzallag, B. N. Leis, and P. Rabbe, Eds., American Society for Testing and
Materials, 1982, pp. 500-518.
2. McDowell, D. L. and Socie, D. F., "Transient and Stable Deformation Behavior
Under Cyclic Nonproportional Loading," ASTM STP 853, 1985, pp. 64-87.
3. Hayhurst, D. R., Leckie, F. A., and McDowell, D. L., "Damage Growth Under
Nonproportional Loading," ASTM STP 853, 1985, pp. 688-699.
4. Fash, J. W., Socie, D. F., and McDowell, D. L., "Fatigue Life Estimates for a
Simple Notched Component Under Biaxial Loading," ASTM STP 853, 1985, pp.
497-513.
5. McDowell, D. L., "A Two Surface Model for Transient Nonproportional Cyclic
Plasticity: Part I - Development of Appropriate Equations," ASME Journal of
Applied Mechanics, Vol. 52, June 1985, pp. 298-302.
6. McDowell, D. L., "A Two Surface Model for Transient Nonproportional Cyclic
Plasticity: Part II - Comparison of Theory with Experiments," ASME Journal of
Applied Mechanics, Vol. 52, June 1985, pp. 303-308.
7. McDowell, D. L., "An Experimental Study of the Structure of Constitutive
Equations for Nonproportional Cyclic Plasticity," ASME Journal of Engineering
Materials and Technology, Vol. 107, Oct. 1985, pp. 307-315.
8. Sotolongo, W., and McDowell, D.L., "An Evaluation of Several Constitutive
Model Structures for Transient Nonproportional Cyclic Plasticity,” ASME
Journal of Pressure Vessel Technology, Vol. 108, Aug. 1986, pp. 273-279.
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9. Sotolongo, W., and McDowell, D.L., "On the Numerical Integration of Elasto-
Plastic Constitutive Model Structures for Nonproportional Cyclic Loading,”
Computers and Structures, Vol. 24, No. 4, 1986, pp. 595-606.
10. McDowell, D.L., "An Evaluation of Recent Developments in Hardening and Flow
Rules for Rate-Independent, Nonproportional Cyclic Plasticity," ASME Journal
of Applied Mechanics, Vol. 54, No. 2, 1987, pp. 323-334.
11. McDowell, D.L., "A Simple, Experimentally Motivated Cyclic Plasticity Model,"
ASCE Journal of Engineering Mechanics, Vol. 113, No. 3, March 1987, pp.378-
397.
12. McDowell, D.L., Stock, S.R., Stahl, D., and Antolovich, S.D., "Biaxial Path
Dependence of Deformation Substructure of Type 304 Stainless Steel,"
Metallurgical Transactions, Vol. 19A, May 1988, pp. 1277-1293.
13. DeMane, M.F, Beals, N.B., McDowell, D.L., Greenwood, K.M., and Spector, M.,
"Porous Polysulfone-Coated Femoral Stems," ASTM STP F4, 1986.
14. McDowell, D.L., Ho, Kwang-Il, and Staley, J., "An Anisotropic, Damage-
Coupled Viscoplastic Model for Creep-Dominated Cyclic Loading," ASTM STP
995, Vol. I, A. Saxena, J.D. Landes and J.L. Bassani, Eds., 1989, pp. 173-194.
15. Leung, Chun-Pok, McDowell, D.L., and Saxena, A., "A Numerical Study of
Nonsteady State Creep at Stationary Crack Tips," ASTM STP 995, Vol. I, A.
Saxena, J.D. Landes and J.L. Bassani, Eds., 1989, pp. 55-67.
16. Yoder, P.Y., and McDowell, D.L., "Bounding-Surface Plasticity: Stress Space
versus Strain Space," Acta Mechanica, Vol. 77, 1989, pp. 13-45.
17. Beals, N., McDowell, D., and Spector, M., "Fatigue Behavior of Porous
Polysulfone Surface Coatings for Orthopaedic Applications," International
Journal of Fatigue, Vol. 9, No. 4, October 1987, pp. 211-216.
18. Leung, Chun-Pok, McDowell, D.L., and Saxena, A., "Consideration of Primary
Creep at a Stationary Crack Tip: Implications for the Ct Parameter," International
Journal of Fracture, Vol. 36, 1988, pp. 275-289.
19. McDowell, D.L., "Evaluation of Intersection Conditions for Two Surface
Plasticity Theory," International Journal of Plasticity, Vol. 5, No. 1, 1989, pp. 29-
50.
20. Moosbrugger, J.C. and McDowell, D.L., "On a Class of Kinematic Hardening
Rules for Nonproportional Cyclic Plasticity," ASME Journal of Engineering
Materials and Technology, Vol. 111, 1989, pp. 87-98.
21. Leung, Chun-Pok and McDowell, D.L., "Inclusion of Primary Creep in the
Estimation of the Ct Parameter," International Journal of Fracture, Vol. 46, 1990,
pp. 81-104.
22. Moosbrugger, J.C. and McDowell, D.L., "A Rate-Dependent Bounding Surface
Model with a Generalized Image Point for Cyclic Nonproportional
Viscoplasticity," Journal of the Mechanics and Physics of Solids, Vol. 38, No. 5,
1990, pp. 627-656.
23. Leung, Chun-Pok, McDowell, D.L. and Saxena, A., "Estimation of the Ct
Parameter: Experimental Implications," ASTM Journal of Testing and Evaluation,
Vol. 18, No. 1, 1990, pp. 25-37.
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24. Berard, J.Y. and McDowell, D.L., "A J-Based Approach to Biaxial Low Cycle
Fatigue of Shear Damaged Materials," ESIS10 (K. Kussmaul, D. McDiarmid and
D. Socie, Eds.), Mechanical Engineering Publications, London, 1991, pp. 413-
431.
25. McDowell, D.L. and Moyar, G.J., "Parametric Study of Cyclic Plastic
Deformation in Rolling and Sliding Line Contact with Realistic Nonlinear
Material Behavior," WEAR, Vol. 144, 1991, pp. 19-37.
26. McDowell, D.L., "Bounding Surface Thermoplasticity," ASME Journal of
Engineering Materials and Technology, Vol. 114, No. 3, 1992, pp. 297-303.
27. Miller, M.P., McDowell, D.L., and Oehmke, R.L.T., "A Creep-Fatigue-Oxidation
Microcrack Propagation Model for Thermomechanical Fatigue," ASME Journal
of Engineering Materials and Technology, Vol. 114, No. 3, 1992, pp. 282-288.
28. McDowell, D.L. and Moosbrugger, J.C., "Continuum Slip Foundations of Elasto-
Viscoplasticity," Acta Mechanica, Vol. 93, 1992, pp. 73-87.
29. McDowell, D.L., "A Nonlinear Kinematic Hardening Theory for Cyclic
Thermoplasticity and Thermoviscoplasticity," International Journal of Plasticity,
Vol. 8, 1992, pp. 695-728.
30. McDowell, D.L. and Berard, J., "A J-Based Approach to Biaxial Fatigue,"
Fatigue and Fracture of Engineering Materials and Structures, Vol. 15, No. 8,
1992, pp. 719-741.
31. McDowell, D.L., Antolovich, S.D. and Oehmke, R.L.T., “Mechanistic
Considerations for TMF Life Prediction of Nickel-Base Superalloys," Nuclear
Engineering and Design, Vol. 133, 1992, pp. 383-399.
32. Yoon, K.B., Saxena, A. and McDowell, D.L., "Influence of Crack Tip Cyclic
Plasticity on Creep-Fatigue Crack Growth," ASTM STP 1131, 1992, pp. 367-392.
33. McDowell, D.L., Marin, E. and Bertoncelli, C., "A Combined Kinematic-
Isotropic Hardening Theory for Porous Inelasticity of Ductile Metals,"
International Journal of Damage Mechanics, Vol. 2, April 1993, pp. 137-161.
34. Yoon, K.B., Saxena, A. and McDowell, D.L., "Effect of Cyclic Overload on the
Crack Growth Behavior during Hold Period at Elevated Temperature,"
International Journal of Fracture, Vol. 59, 1993, pp. 199-211.
35. Berard, J.Y., McDowell, D.L, and Antolovich, S.D., "Damage Observation of a
Low Carbon Steel Under Tension-Torsion Low Cycle Fatigue," ASTM STP
1191, 1993, pp. 326-344.
36. Miller, M.P., McDowell, D.L, Oehmke, R.L.T., and Antolovich, S.D., "A Life
Prediction Model for Thermomechanical Fatigue Based on Microcrack
Propagation," ASTM STP 1186, 1993, pp. 35-49.
37. McDowell, D.L., "Description of Nonproportional Cyclic Ratchetting Behavior,"
European Journal of Mechanics, A/Solids, Vol. 13, No. 5, 1994, pp. 593-604.
38. McDowell, D.L., "Stress State Dependence of the Cyclic Ratchetting Behavior of
Two Rail Steels," International Journal of Plasticity, Vol. 11, No. 4, 1995, pp.
397-421.
39. McDowell, D.L., Miller, M.P. and Brooks, D.C., "A Unified Creep-Plasticity
Theory for Pb-Sn Solder," Fatigue of Electronic Materials, ASTM STP 1153,
S.A. Schroeder and M.R. Mitchell, Eds., ASTM, Philadelphia, 1994, pp. 42-59.
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40. Miller, M.P. and McDowell, D.L., "The Effect of Stress-State on the Large Strain
Inelastic Deformation Behavior of 304L Stainless Steel," ASME Journal of
Engineering Materials and Technology, Vol. 188, No. 1, 1996, pp. 28-36.
41. Adefris, N., Saxena, A. and McDowell, D.L., "Creep-Fatigue Crack Growth
Behavior in 1 Cr-1Mo-0.25V Steel. Part I - Estimation of Crack Tip Parameters,"
Fatigue and Fracture of Engineering Materials and Structures, Vol. 19, No. 4,
1996, pp. 387-399.
42. Adefris, N., Saxena, A. and McDowell, D.L., "Creep-Fatigue Crack Growth
Behavior in 1 Cr-1Mo-0.25V Steel. Part II - Crack Growth Behavior and
Models," Fatigue and Fracture of Engineering Materials and Structures, Vol. 19,
No. 4, 1996, pp. 401-411.
43. Howell, M., Hahn, G.T., Rubin, C.A. and McDowell, D.L., "Finite Element
Analysis of Rolling Contact for Nonlinear Kinematic Hardening Bearing Steel,"
ASME Journal of Tribology, Vol. 117, 1995, pp. 729-736.
44. McDowell, D.L., "An Engineering Model for Propagation of Small Cracks in
Fatigue," Engineering Fracture Mechanics, Vol. 56, No. 3, 1997, pp. 357-377.
45. Lim, T.J. and McDowell, D.L., "Path Dependence of Shape Memory Alloys
During Cyclic Loading," Journal of Intelligent Materials Systems and Structures,
Vol. 6, 1995, pp. 817-830.
46. McDowell, D.L. and Bennett, V.P., "A Microcrack Growth Law for Multiaxial
Fatigue," Fatigue and Fracture of Engineering Materials and Structures, Vol. 19,
No. 7, 1996, pp. 821-837.
47. Marin, E.B. and McDowell, D.L., "Models for Compressible Elasto-Plasticity
Based on Internal State Variables," International Journal of Damage Mechanics,
Vol. 7, No. 1, 1998, pp. 47-83.
48. Marin, E.B. and McDowell, D.L., "Associative Versus Non-Associative Porous
Viscoplasticity Based on Internal State Variable Concepts," International Journal
of Plasticity, Vol. 12, No. 5, 1996, pp. 629-669.
49. Miller, M.P. and McDowell, D.L., "Modelling Large Strain Multiaxial Effects in
FCC Polycrystals," International Journal of Plasticity, Vol. 12, No. 7, 1996, pp.
875-902.
50. Miller, M.P. and McDowell, D.L., "Biaxial Deformation Experiments Over
Multiple Strain Regimes," in Multiaxial Fatigue and Deformation Testing
Techniques, ASTM STP 1280, Kalluri and Bonacuse, Eds., ASTM, 1997, pp. 65-
91.
51. Hamilton, B.C., Hall, D.E., Saxena, A. and McDowell, D.L., “Creep Crack
Growth Behavior of Aluminum Alloy 2519: Part I - Experimental Analyis, in
Elevated Temperature Effects on Fatigue and Fracture, ASTM STP 1297, eds.
Piascik, Gangloff and Saxena, 1997, pp. 3-18.
52. Hall, D.E., Hamilton, B.C., McDowell, D.L. and Saxena, A., "Creep Crack
Growth Behavior of Aluminum Alloy 2519: Part II - Numerical Analysis," in
Elevated Temperature Effects on Fatigue and Fracture, ASTM STP 1297, eds.
Piascik, Gangloff and Saxena, 1997, pp. 19-36.
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53. Marin, E.B. and McDowell, D.L., "A Semi-Implicit Integration Scheme for Rate-
Dependent and Rate-Independent Plasticity," Computers and Structures, Vol 63,
No. 3, 1997, pp. 579-600.
54. McDowell, D.L., "Multiaxial Fatigue Strength," ASM Handbook, Vol. 19 on
Fatigue and Fracture, ASM International, 1996, pp. 263-273.
55. McDowell, D.L., "Basic Issues in the Mechanics of High Cycle Metal Fatigue,"
International Journal of Fracture, Vol. 80, 1996, pp. 103-145.
56. Lacy, T., McDowell, D.L., Willice, P.A. and Talreja, R., "On Representation of
Damage Evolution in Continuum Damage Mechanics," International Journal of
Damage Mechanics, Vol. 6, 1997, pp. 62-95.
57. Lacy, T., McDowell, D.L. and Talreja, R., "Effects of Damage Distribution on
Evolution," Applications of Continuum Damage Mechanics to Fatigue and
Fracture, ASTM STP 1315, D.L. McDowell, Ed., 1997, pp. 131-149.
58. McDowell, D.L., "Multiaxial Small Fatigue Crack Growth in Metals,"
International Journal of Fatigue, Vol. 19, No. 1, 1997, pp. S127-S135.
59. Fu, C., McDowell, D.L., and Ume, C., "A Finite Element Procedure of a Cyclic
Thermoviscoplasticity Model for Solder and Copper Interconnects," ASME
Journal of Electronic Packaging, Vol. 120, 1998, pp. 24-34.
60. Adefris, N., McDowell, D.L. and Saxena, A., "An Alternative Analytical
Approximation of the Ct Parameter," Fatigue and Fracture of Engineering
Materials and Structures, Vol. 21, No. 4, 1998, pp. 375-385.
61. McDowell, D.L., "An Approximate Algorithm for Elastic-Plastic 2-D
Rolling/Sliding Contact," Wear, Vol. 211, 1997, pp. 237-246.
62. Horstemeyer, M.F. and McDowell, D.L., "Modeling Effects of Dislocation
Substructure in Polycrystal Elastoviscoplasticity," Mechanics of Materials, Vol.
27, 1998, pp. 145-163.
63. Hall, D.E., McDowell, D.L. and Saxena, A., "Crack Tip Parameters for Creep-
Brittle Crack Growth," Fatigue and Fracture of Engineering Materials and
Structures, Vol. 21, No. 4, 1998, pp. 387-401.
64. Fu, C., Ume, I.C. and McDowell, D.L., “Thermal Stress and Fatigue Analysis of
Plated-Through Holes Using an Internal State Variable Constitutive Model,”
Finite Elements in Analysis and Design, Elsevier, Vol. 30, 1998, pp. 1-17.
65. Butler, G.C., Graham, S., McDowell, D.L., Stock, S.R. and Ferney, V.C.,
“Application of the Taylor Polycrystal Plasticity Model to Complex Deformation
Experiments,” ASME Journal of Engineering Materials and Technology, Vol.
120, 1998, pp. 197-205.
66. Butler, G.C. and McDowell, D.L., "Polycrystal Constraint and Grain
Subdivision," International Journal of Plasticity, Vol. 14, No. 8, 1998, pp. 703-
717.
67. Tanner, A.B. and McDowell, D.L., “Deformation, Temperature and Strain Rate
Sequence Experiments on OFHC Copper,” International Journal of Plasticity,
Vol. 15, 1999, pp. 375-399.
68. Tanner, A.B., McGinty, R.D. and McDowell, D.L., “Modeling Temperature and
Strain Rate Sequence Effects on OFHC Copper,” International Journal of
Plasticity, Vol. 15, 1999, pp. 575-603.
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69. Lim, T.-J. and McDowell, D.L., “Mechanical Behavior of an Ni-Ti Shape
Memory Alloy under Axial-Torsional Proportional and Nonproportional
Loading,” ASME Journal of Engineering Materials and Technology, Vol. 121,
1999, pp. 9-18.
70. Guvenilir, A., Butler, G.C., Haase, J.D., McDowell, D.L. and Stock, S.R., “X-ray
Microbeam Quantification of Grain Subdivision Accompanying Large
Deformations of Copper,” Acta Materialia, Vol. 46, No. 18, 1998, pp. 6599-6604.
71. Bennett, V. and McDowell, D.L., ”Polycrystal Orientation Effects on Microslip
and Mixed Mode Behavior of Microstructurally Small Cracks,” Mixed-Mode
Crack Behavior, ASTM STP 1359, Eds. K.J. Miller and D.L. McDowell, 1999,
pp. 203-228.
72. Graham, S. McDowell, D.L. and Dinwiddie, R., “In-Plane Thermal Diffusivity
Measurements of Orthotropic Materials,” Thermal Conductivity 24, P.S. Gaal,
ed.,Technomic Publishing Co., Lancaster, PA, 1999, pp. 241-252.
73. Graham, S. and McDowell, D.L., “Multi-Dimensional Flash Diffusivity
Measurements of Orthotropic Materials,” International Journal of Thermophysics,
Vol. 20, No. 2, 1999, pp. 691-707.
74. McDowell, D.L., “Modeling and Experiments in Plasticity,” special volume on
Research Directions in Solid Mechanics, Ed. G.J. Dvorak, Int. Journal of Solids
and Structures, Vol. 37, 2000, pp. 293-309.
75. Horstemeyer, M.F., McDowell, D.L., and McGinty, R.D., "Design of
Experiments for Constitutive Model Selection: Application to Polycrystal
Elastoviscoplasticity," in Modelling Simul. Mater. Eng., Vol. 7, 1999, pp.253-
273.
76. Saxena, A., Hall, D.E. and McDowell, D.L., “Assessment of Deflection Rate
Partitioning for Analyzing Creep Crack Growth Data,” Engineering Fracture
Mechanics, Vol. 62, 1999, pp. 111-122.
77. McGinty, R.D. and McDowell, D.L., “Multiscale Polycrystal Plasticity,” ASME
Journal of Engineering Materials and Technology, Vol. 121, 1999, pp. 203-209.
78. Lacy, T.E., McDowell, D.L. and Talreja, R., “Gradient Concepts for Evolution of
Damage,” Mechanics of Materials, Vol. 31, 1999, pp. 831-860.
79. McDowell, D.L., “Damage Mechanics in Metal Fatigue: A Discriminating
Perspective,” International Journal of Damage Mechanics, special issue guest
edited by D.L. McDowell, Vol. 8, 1999, pp. 377-403.
80. Gall, K., Yang, N., Horstemeyer, M., McDowell, D.L., and Fan, “The Influence
of Modified Intermetallics and Si Particles on Fatigue Crack Paths in a Cast A356
Al Alloy,” Fatigue and Fracture of Engineering Materials and Structures, Vol. 23,
No. 2, 2000, pp. 159-172.
81. Gall, K., Yang, N., Horstemeyer, M., McDowell, D.L., and Fan, “The Debonding
and Fracture of Si Particles During the Fatigue of a Cast Al-Si Alloy,”
Metallurgical and Materials Transactions A, Vol. 30A, 1999, pp. 3079-3088.
82. Gall, K., Lim, T.J., McDowell, D.L., Sehitoglu, H. and Chumlyakov, Y.I., “The
Role of Intergranular Constraint on the Stress-Induced Martensitic
Transformation in Textured Polycrystalline NiTi,” International Journal of
Plasticity, Special Issue on Phase Transformation, Vol. 16, 2000, pp. 1189-1214.
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83. Morrissey, R.J., McDowell, D.L. and Nicholas, T., “Frequency and Stress Ratio
Effects in High Cycle Fatigue of Ti-6Al-4V,” International Journal of Fatigue,
Vol. 21, 1999, pp. 679-685.
84. Morrissey, R.J., McDowell, D.L. and Nicholas, T., “Strain Accumulation in Ti-
6Al-4V During Fatigue at High Mean Stress,” Mechanics of Time-Dependent
Materials, Vol. 2, 1999, pp. 195-210.
85. Gall, K., Horstemeyer, M., McDowell, D.L., and Fan, J. “Finite Element Analysis
of the Stress Distributions Near Damaged Si Particle Clusters in Cast Al-Si
Alloys,” Mechanics of Materials, Vol. 32, No. 5, 2000, pp. 277-301.
86. Garber, M.A., McDowell, D.L. and Hutton, W.C., “Bone Loss During Simulated
Weightlessness: A Biomechanical and Mineralization Study in the Rat Model,”
Aviation, Space and Environmental Medicine, Vol. 71, No. 6, 2000.
87. McDowell, D.L., Clayton, J.D. and Bennett, V.P., “Integrated
Diagnostic/Prognostic Tools for Small Cracks in Structures,” Proc. Instn. Mech.
Engrs., Vol. 214, Part C, 2000, pp. 1123-1140.
88. Gall, K., Horstemeyer, M.F, Degner, B.W., McDowell, D.L., and Fan, J. “On the
Driving Force for Fatigue Crack Formation From Inclusions and Voids in a Cast
A356 Aluminum Alloy,” International Journal of Fracture, Vol. 108, 2001, pp.
207-233.
89. Graham, S., McDowell, D. L., Lara-Curzio, E., Dinwiddie, R. B., and Wang, H.,
"The Effects of Microstructural Damage on the Thermal Diffusivity of
Continuous Fiber-Reinforced Ceramic Matrix Composites," Environmental,
Mechanical, and Thermal Properties and Performance of Continuous Fiber
Ceramic Composite (CFCC) Materials and Components, ASTM STP 1392, M. G.
Jenkins, Ed., American Society for Testing and Materials, West Conshohocken,
PA, Sept. 2000, pp. 185-200.
90. Fan, J., McDowell, D.L., Horstemeyer, M.F. and Gall, K., "Computational
Micromechanics Analysis of Cyclic Crack-tip Behavior for Microstructurally
Small Cracks in Dual-Phase Al-Si Alloys", Engineering Fracture Mechanics, Vol.
68, 2001, pp. 1687-1706.
91. Morrissey, R.J., McDowell, D.L. and Nicholas, T., “Microplasticity in HCF of Ti-
6Al-4V,” International Journal of Fatigue, Vol. 23, 2001, pp. 55-64.
92. Fu, C., McDowell, D.L. and Ume, I.C., “Thermoplastic Finite Element Analysis
of Unfilled Plated-Through Holes During Wave Soldering,” ASME Journal of
Electronic Packaging, Vol. 124, No. 1, 2002, pp. 45-53.
93. Lim, T.J. and McDowell, D.L., “Cyclic Thermomechanical Behavior of a
Polycrystalline Pseudoelastic Shape Memory Alloy,” Journal of the Mechanics
and Physics of Solids, Vol. 50, Issue 3, 2002, pp. 651-676.
94. Butler, G.C., Stock, S.R., McGinty, R.D. and McDowell, D.L., “X-Ray
Microbeam Laue Pattern Studies of the Spreading of Orientation in OFHC
Copper at Large Strains,” ASME Journal of Engineering Materials and
Technology, Special Issue on Micromechanics, Vol. 124, 2002, pp. 48-54.
95. Goh, C.-H., Wallace, J.M., Neu, R.W. and McDowell, D.L., “Polycrystal
Plasticity Simulations of Fretting Fatigue,” International Journal of Fatigue, Vol.
23, 2001, pp. S423-S435.
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96. McDowell, D.L., “Materials Design: A Useful Research Focus for Inelastic
Behavior of Structural Metals,” Special Issue of the Theoretical and Applied
Fracture Mechanics, Prospects of Mesomechanics in the 21st Century: Current
Thinking on Multiscale Mechanics Problems, eds. G.C. Sih and V.E. Panin, Vol.
37, 2001, pp. 245-259.
97. Clayton, J., Schroeter, B., Graham, S. and McDowell, D.L., “Distributions of
Stretch and Rotation in Polycrystalline OFHC Cu,” ASME Journal of Engineering
Materials and Technology, Vol. 124, No. 3, 2002, pp. 302-313.
98. McDowell, D.L., Gall, K., Horstemeyer, M.F. and Fan, J., “Microstructure-Based
Fatigue Modeling of Cast A356-T6 Alloy,” Engineering Fracture Mechanics, Vol.
70, 2003, pp. 49-80.
99. Morrissey, R., Goh, C.-H., and McDowell, D.L., “Microstructure-Scale Modeling
of HCF Deformation,” Mechanics of Materials, Vol. 35, Nos. 3-6, 2003, pp. 295-
311.
100. Goh, C.-H., Neu, R.W. and McDowell, D.L., “Influence of Nonhomogeneous
Material in Fretting Fatigue,” ASTM STP 1425, Fretting Fatigue: Advances in
Basic Understanding and Applications, 2002, 183-205.
101. Lim, T.J., Smith, B. and McDowell, D.L., “Behavior of a Random Hollow Sphere
Metal Foam, Acta Materialia, Vol. 50, No. 11, 2002, pp. 2867-2879.
102. Bennett, V.P. and McDowell, D.L., “Crystal Plasticity Analyses of Stationary,
Microstructurally Small Surface Cracks in Ductile Single Phase Polycrystals,”
Fatigue and Fracture of Engineering Materials and Structures, Vol. 25, No. 7,
2002, pp. 677-693.
103. Zhou, M. and McDowell, D.L., “Equivalent Continuum for Dynamically
Deforming Atomistic Particle Systems,” Phil. Mag. A, Vol. 82, No. 13, 2002, pp.
2547-2574.
104. Bennett, V.P. and McDowell, D.L., “Crack Tip Displacements of
Microstructurally Small Surface Cracks in Single Phase Ductile Polycrystals,”
Engineering Fracture Mechanics, Vol. 70, 2003, pp. 185-207.
105. Bennett, V.P. and McDowell, D.L., “Polycrystal Orientation Distribution Effects
on Microslip in High Cycle Fatigue,” International Journal of Fatigue, Vol. 25,
2003, pp. 27-39.
106. Clayton, J.D. and McDowell, D.L., “A Multiscale Multiplicative Decomposition
for Elastoplasticity of Polycrystals,” International Journal of Plasticity, Vol. 19,
No. 9, 2003, pp. 1401-1444.
107. Schroeter, B.M. and McDowell, D.L., “Measurement of Deformation Fields in
Polycrystalline OFHC Copper,” International Journal of Plasticity, Vol. 19, No. 9,
2003, pp. 1355-1376.
108. Graham, S., McDowell, D.L., Lara-Curzio, E., Dinwiddie, R.B., Wang, H. and
Porter, W., “Non-Destructive Characterization of Thermal Shock and Oxidation-
Induced Damage by Flash Diffusivity,” Journal of Composite Materials, Vol. 37,
No. 1, 2003, pp. 73-87.
109. Fan, J., McDowell, D.L., Horstemeyer, M.F., and Gall, K., “Cyclic Plasticity at
Pores and Inclusions in Cast Al-Si Alloys,” Engineering Fracture Mechanics, Vol.
70, No. 10, 2003, pp. 1281-1302.
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110. Horstemeyer, M.F., Yang, N., Gall, K., McDowell, D.L., Fan, J. and Gullett, P.,
“High Cycle Fatigue Mechanisms in Cast AM60B Magnesium,” International
Journal of Fatigue and Fracture of Engineering Materials and Structures, Vol. 25,
2002, pp. 1045-1056.
111. Goh, C.-H., Neu, R.W. and McDowell, D.L., “Crystallographic Plasticity in
Fretting of Ti-6Al-4V,” International Journal of Plasticity, Vol. 19, No. 10 , 2003,
pp. 1627-1650.
112. Hayes, A.M., Wang, A., Dempsey, B.M. and McDowell, D.L., “Mechanics of
Linear Cellular Alloys,” Mechanics of Materials, Vol. 36, No. 8 , 2004, pp. 691-
713.
113. Aleong, D., Dumont, C., McDowell, D.L., Patoor, E., and Chirani, S.A.,
“Transformation Surfaces of Textured Pseudoelastic Cu-Zn-Al Shape Memory
Alloy,” Journal of Intelligent Material Systems and Structures, Vol. 13, No. 12,
2002, pp. 783-793.
114. Graham, S. and McDowell, D.L., “Numerical Analysis of the Transverse Thermal
Conductivity of Composites with Imperfect Interfaces,” Journal of Heat Transfer,
Vol. 125, No. 3, 2003, pp. 389-393.
115. Chirani, S.A., Aleong, D., Dumont, C., McDowell, D., and Patoor, E.,
“Superelastic Behavior Modeling in Shape Memory Alloys,” J. Phys. IV France,
Vol. 112, 2003, pp. 205-208.
116. Wang, A.-J. and McDowell, D.L., “Optimization of a Metal Honeycomb
Sandwich Beam-bar Subjected to Torsion and Bending,” International Journal of
Solids and Structures, Vol. 40, No. 9, 2003, pp 2085 - 2099.
117. Gall, K., Biallas, G., Maier, H.J., Gullett, P., Horstemeyer, M.F., McDowell, D.L.,
and Fan, J., “In-Situ Observations of High-Cycle Fatigue Mechanisms in Cast
AM60B Magnesium in Vacuum and Water Vapor Environments,” International
Journal of Fatigue, Vol. 26, No. 1, 2003, pp. 59-70.
118. Clayton, J.D. and McDowell, D.L., “Finite Polycrystalline Elastoplasticity and
Damage: Multiscale Kinematics,” International Journal of Solids and Structures,
Vol 40, No. 21, 2003, pp. 5669-5688.
119. Clayton, J.D., Bammann, D.J. and McDowell, D.L, “Anholonomic Configuration
Spaces and Metric Tensors in Finite Elastoplasticity,” International Journal of
Nonlinear Mechanics, Vol. 39, 2004, pp. 1039-1049.
120. Goh, C.-H., McDowell, D.L., and Neu, R.W., "Characteristics of Plastic
Deformation Field in Polycrystalline Fretting Contacts," International Journal of
Fatigue, Vol. 25, Issues 9-11 , 2003, pp. 1047-1058.
121. Clayton, J.D. and McDowell, D.L., “Homogenized Finite Elastoplasticity and
Damage: Theory and Computations,” Mechanics of Materials, Vol. 36, 2004, pp.
799-824.
122. Clayton, J.D., Bammann, D.J. and McDowell, D.L, “A Multiscale Gradient
Theory for Single Crystalline Elastoviscoplasticity,” International Journal of
Engineering Science, Vol. 42, 2004, pp. 427-457.
123. Spearot, D.E., Jacob, K.I. and McDowell, D.L., “Nonlocal Separation
Constitutive Laws for Interfaces and their Relation to Nano-scale Simulations,”
Mechanics of Materials, Vol. 36, No. 9, 2004, pp. 825-847.
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124. Seepersad, C.-C., Dempsey, B.M., Allen, J.K., Mistree, F. and McDowell, D.L.,
“Design of Multifunctional Honeycomb Materials,” AIAA Journal, Vol. 42, No.
5, 2004, pp. 1025-1033.
125. Wang, A.-J. and McDowell, D.L., “In-Plane Stiffness and Yield Strength of
Periodic Metal Honeycombs at Intermediate Relative Density,” ASME Journal of
Engineering Materials and Technology, Vol. 126, 2004, pp. 137-156.
126. McGinty, R.D. and McDowell, D.L., “Application of Multiscale Crystal Plasticity
Models to Forming Limit Diagrams,” ASME Journal of Engineering Materials
and Technology, Vol. 126, No. 3, 2004, pp. 285-291.
127. Gall, K., Biallas, G., Maier, H.J., Gullett, P., Horstemeyer, M.F., and McDowell,
D.L., “In-Situ Observations of Low-Cycle Fatigue Damage in Cast AM60B
Magnesium in an Environmental Scanning Electron Microscope,” Metallurgical
and Materials Transactions A, Vol. 35A, 2004, pp. 321-331.
128. Horstemeyer, M.F., Yang, N., Gall, K., McDowell, D.L., Fan, J. and Gullett, P.,
“High Cycle Fatigue of a Die Cast AZ91E-T4 Magnesium Alloy,” Acta
Materialia, Vol. 52, 2004, pp. 1327-1336.
129. Wang, A.-J. and McDowell, D.L., Effects of Defects on In-Plane Properties of
Periodic Metal Honeycombs, International Journal of Mechanical Sciences, Vol.
45, 2003, pp. 1799-1813.
130. Gordon, A.P. and McDowell, D.L., "Numerical Simulation of Time-Dependent
Fracture of Graded Bimaterial Metallic Interfaces" International Journal of
Fracture, Vol. 126, 2004, pp. 321-344.
131. Swalla, D.R., Neu, R.W. and McDowell, D.L., “Microstructural Characterization
of Ti-6Al-4V Subjected to Fretting,” ASME Journal of Tribology, Vol. 126, 2004,
pp. 809-816.
132. Kumar, R. S. and D. L. McDowell, "Rapid Preliminary Design of Rectangular
Linear Cellular Alloys for Maximum Heat Transfer," AIAA Journal, Vol. 42, No.
8, 2004, pp. 1652-1661.
133. Kumar, R.S. and McDowell, D.L., “Erratum: Rapid preliminary design of
rectangular linear cellular alloys for maximum heat transfer (AIAA Journal)
(2004) 42:8 (1652-1661)),” AIAA Journal, Vol. 43, No. 1, 2005, p. 219.
134. Wang, A.-J. and McDowell, D.L., “Yield Surfaces of Various Periodic Metal
Honeycombs at Intermediate Relative Density,” International Journal of
Plasticity, Vol. 21, No. 2, 2005, pp. 285-320.
135. Shenoy, M.M., Kumar, R.S. and McDowell, D.L., “Modeling Effects of
Nonmetallic Inclusions on LCF in DS Nickel-Base Superalloys,” International
Journal of Fatigue, Vol. 27, 2005, pp. 113-127.
136. Kumar, R.S. and McDowell, D.L., “Generalized Continuum Modeling of 2-D
Periodic Cellular Solids,” International Journal of Solids and Structures, Vol. 41,
No. 26, 2004, pp. 7399-7422.
137. Dempsey, B.M., Eisele, S., and McDowell, D.L., “Heat Sink Applications of
Extruded Metal Honeycombs,” International Journal of Heat and Mass Transfer
Vol. 48, Issues 3-4 , 2005, pp. 527-535.
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138. Seepersad, C.C., Kumar, R.S., Allen, J.K., Mistree, F. and McDowell, D.L.,
“Multifunctional Design of Prismatic Cellular Materials,” Journal of Computer-
Aided Materials Design, Vol. 11, Nos. 2-3, 2005, pp. 163-181.
139. Gordon, A.P. and McDowell, D.L., “Mixed Mode Loading of an Interface Crack
Between Graded Creeping Solids,” ASME Journal of Pressure Vessel
Technology, 126(4), 2004, pp. 478-484.
140. Spearot, D.E., Jacob, K.I., McDowell, D.L., and Plimpton, S.J., “Effect of
Deformation Path Sequence on the Behavior of Nanoscale Copper Bicrystal
Interfaces,” Journal of Engineering Materials and Technology, Transactions of the
ASME, Vol. 127, No. 4, 2005, pp. 374-382.
141. McDowell, D.L., “Internal State Variable Theory,” Handbook of Materials
Modeling, Part A: Methods, eds. Sidney Yip and M.F. Horstemeyer, Springer, the
Netherlands, 2005, pp. 1151-1170.
142. McDowell, D.L., “Microstructure-Sensitive Computational Fatigue Analysis,”
Handbook of Materials Modeling, Part A: Methods, eds. Sidney Yip and M.F.
Horstemeyer, Springer, the Netherlands, 2005, pp. 1193-1214.
143. Shenoy, M.S., Gordon, A.P., Neu, R.W., and McDowell, D.L.,
“Thermomechanical Fatigue Behavior of a Directionally Solidified Ni-Base
Superalloy,” ASME Journal of Engineering Materials and Technology, Vol. 27,
2005, pp. 325-336.
144. Clayton, J.D., McDowell, D.L., and Bammann, D.J., “Modeling Dislocations and
Disclinations with Finite Micropolar Elastoplasticity,” International Journal of
Plasticity, Vol. 22, No. 2, 2006, pp. 210-256.
145. Gall, K., Biallas, G., Maier, H.J., Horstemeyer, M.F., and McDowell, D.L.,
“Environmentally Influenced Microstructurally Small Fatigue Crack Growth in
Cast Magnesium,” Materials Science and Engineering A, Vol. 396, Nos. 1-2,
2005, pp. 143-154.
146. Clayton, J.D., Bammann, D.J. and McDowell, D.L., “A Geometric Framework for
the Kinematics of Crystals with Defects,” Philosophical Magazine, Vol. 85, Nos.
33–35, 2005, pp. 3983–4010.
147. Wang, A.-J., Kumar, R.S., and McDowell, D.L., “Mechanical Behavior of
Extruded Prismatic Cellular Metals,” Mechanics of Advanced Materials and
Structures, Vol. 12, No. 3, 2005, pp. 185-200.
148. Kumar, R.S., Wang, A.-J., and McDowell, D.L., “Effects of Microstructure
Variability on Intrinsic Fatigue Resistance of Nickel-Base Superalloys – A
Computational Micromechanics Approach,” International Journal of Fracture,
Vol. 137, No. 1-4, 2006, pp. 173 - 210.
149. Choi, H.-J., Austin, R., Shepherd, J., Allen, J.K., McDowell, D.L., Mistree, F. and
Benson, D.J., “An Approach for Robust Design of Reactive Powder Metal
Mixtures Based on Non-deterministic Micro-scale Shock Simulation,” Journal of
Computer-Aided Materials Design, Vol. 12, No. 1, 2005, pp. 57–85.
150. Goh, C.-H., McDowell, D.L., and Neu, R.W., “Plasticity in Polycrystalline
Fretting Contacts,” Journal of the Mechanics and Physics of Solids, Vol. 54, No.
2, 2006, pp. 340-367.
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151. Spearot, D., Jacob, K.I., and McDowell, D.L., “Nucleation of Dislocations from
[001] Bicrystal Interfaces in Aluminum,” Acta Materialia, Vol. 53, No. 13, 2005,
pp. 3579-3589.
152. Wilde, T.P., McDowell, D.L. Jacob, K.I. and Aneja, A.Pl., “A Modified Mullins
Model for Compressive Behavior of Goose Down Fiber Assemblies,” Mechanics
of Advanced Materials and Structures, Vol. 13, 2006, pp. 83-93.
153. McGinty, R.D. and McDowell, D.L., “A Semi-Implicit Integration Scheme for
Rate Independent Finite Crystal Plasticity, International Journal of Plasticity, Vol.
22, No. 6, 2006, pp. 965-1170.
154. Shepherd, J.E., McDowell, D.L., and Jacob, K.I., “Modeling Morphology
Evolution and Mechanical Behavior During Thermomechanical Processing of
Semi-Crystalline Polymers,” Journal of the Mechanics and Physics of Solids, Vol.
54, No. 3, 2006, pp. 467-489.
155. Seepersad, C.C., Allen, J.K., McDowell, D.L., and Mistree, F., “Robust Design of
Cellular Materials with Topological and Dimensional Imperfections,” ASME
Journal of Mechanical Design, Vol. 128, No. 6, 2006, pp. 1285-1297.
156. Spearot, D.J., Jacob, K.I., and McDowell, D.L., “Dislocation Nucleation from
Bicrystal Interfaces with Dissociated Structure,” International Journal of
Plasticity, Vol. 23, No. 1, 2007, pp. 143-160.
157. Austin, R.A., McDowell, D.L., and Benson, D.J., “Numerical simulation of shock
wave propagation in spatially-resolved reactive particle systems,” Modeling and
Simulation in Materials Science and Engineering, 14, 2006, pp. 537-561.
158. Shenoy, M.M., McDowell, D.L., and Neu, R.W., “Transversely Isotropic
Viscoplasticity Model for a Directionally Solidified Ni-Base Superalloy”,
International Journal of Plasticity, Vol. 22, No. 12, 2006, pp. 2301-2326.
159. McDowell, D.L., “Simulation-Based Strategies for Microstructure-Sensitive
Fatigue Modeling,” Materials Science and Engineering A, Vol. 468-470, 2007,
pp. 4-14.
160. Spearot, D.E., Tschopp, M.A., Jacob, K.I., and McDowell, D.L., “Tensile
Strength of <100> and <110> Tilt Bicrystal Copper Interfaces,” Acta Materialia,
Vol. 55, No. 2, 2007, pp. 705-714.
161. Wang, A.-J., Kumar, R.S., Shenoy, M.M., and McDowell, D.L., “Microstructure-
Based Multiscale Constitutive Modeling of - Nickel-Base Superalloys,”
International Journal of Multiscale Computational Engineering, Vol. 4, No. 5-6,
2006, p 663-692. 162. Goh, C.-H., McDowell, D.L., and Neu, R.W., “Influence of Microstructure in
Partial-Slip Fretting Contacts Based upon Two-Dimensional Crystal Plasticity
Simulations,” Journal of Tribology, Vol. 128, 2006, pp. 735-744. 163. Xue, Y., McDowell, D.L., Horstemeyer, M.F., Dale, M.H., and Jordon, B.,
“Microstructure-Based Multistage Fatigue Modeling of Aluminum Alloy 7075-
T651,” Engineering Fracture Mechanics, Vol. 74, No. 17, 2007, pp. 2810-2823.
164. Xue, Y., Horstemeyer, M.F., McDowell, D.L., El Kadiri, H., and Fan, J.,
“Microstructure-Based Multistage Fatigue Modeling of a Cast AE44 Magnesium
Alloy,” Int. J. Fatigue, Vol. 29, No. 4, 2007, pp. 666-676.
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165. Mayeur, J. and McDowell, D.L., “A Three-Dimensional Crystal Plasticity Model
for Duplex Ti-6Al-4V,” International Journal of Plasticity, Vol. 23, No. 9, 2007,
pp. 1457-1485.
166. Tschopp, M.A. and McDowell, D.L., “Structures and Energies of 3 Asymmetric
Tilt Grain Boundaries,” Philosophical Magazine, Vol. 87, .No. 22, 2007, pp.
3147-3173.
167. Tschopp, M.A. and McDowell, D.L., "Tension-Compression Asymmetry in
Homogeneous Dislocation Nucleation in Single Crystal Copper," Applied Physics
Letters, Vol. 90, 121916, 2007.
168. Zhang, M., Zhang, J. and McDowell, D.L., “Microstructure-Based Crystal
Plasticity Modeling of Cyclic Deformation of Ti-6Al-4V,” International Journal
of Plasticity, Vol. 23, No. 8, 2007, pp. 1328-1348.
169. Tschopp, M.A. and McDowell, D.L., “Dislocation Nucleation in 3 Asymmetric
Tilt Grain Boundaries,” International Journal of Plasticity, Vol. 24, No. 2, 2008,
pp. 191-217.
170. Tschopp, M.A. and McDowell, D.L., “Structural Unit and Faceting Description of
Σ3 Asymmetric Tilt Grain Boundaries,” Journal of Materials Science, Vol. 42,
No. 18, 2007, pp. 7806-7811.
171. Jordan, J.L., Ferranti, L., Austin, R.A., Dick, R.D., Foley, J.R., Thadhani, N.N.,
McDowell, D.L., and Benson, D.J., “Equation of State of Aluminum - Iron Oxide
- Epoxy Composite,” Journal of Applied Physics, Vol.101, No.9, 2007, p. 093520.
172. Gordon, A,P., Trexler, M.D., Neu, R.W., Sanders, T.H.B., Jr., and McDowell,
D.L., ”Corrosion Kinetics of a Directionally Solidified Ni-Base Superalloy,” Acta
Materialia, Vol. 55, No. 10, 2007, pp. 3375-3385.
173. Capolungo, L., Spearot, D.E., Cherkaoui, M., McDowell, D.L., Qu, J., and Jacob,
K., “Dislocation Nucleation from Bicrystal Interfaces and Grain Boundary
Ledges: Relationship to Nanocrystalline Deformation,” Journal of the Mechanics
and Physics of Solids, Vol. 55, No. 11, 2007, pp. 2300-2327.
174. Mayeur, J.R., McDowell, D.L., and Neu, R.W., “Crystal Plasticity Simulations of
Fretting of Ti-6Al-4V in Partial Slip Regime Considering Effects of Texture,”
Computational Materials Science, Vol. 41, No. 3, 2008, pp. 356-365.
175. Tschopp, M.A.and McDowell, D.L., “Asymmetric Tilt Grain Boundary Structure
and Energy in Copper and Aluminum,” Philosophical Magazine, Vol. 87, No. 25,
2007, pp. 3871-3892.
176. Seepersad, C.C., Allen, J.K., McDowell, D.L., and Mistree, F., “Multifunctional
Topology Design of Cellular Structures,” ASME Journal of Mechanical Design,
Vol. 130, No. 3, 2008, pp. 031404-1-13.
177. Tschopp, M.A., Tucker, G.J., and McDowell, D.L., “Structure and free volume of
<110> symmetric tilt grain boundaries with the E structural unit”, Acta
Materialia, Vol. 55, No. 11, 2007, pp. 3959-3969.
178. McDowell, D.L., Choi, H.-J., Panchal, J., Austin, R., Allen, J.K. and Mistree, F.,
“Plasticity-Related Microstructure-Property Relations for Materials Design,” Key
Engineering Materials Vols. 340-341, 2007, pp. 21-30.
179. Tschopp, M.A., Spearot, D.E., and McDowell, D.L., “Atomistic Simulations of
Homogeneous Dislocation Nucleation in Single Crystal Copper,” Modeling and
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Simulation in Materials Science and Engineering, Vol. 15, No. 7, 2007, pp. 693-
709.
180. Xue, Y., Burton, C.L., Horstemeyer, M.F., McDowell, D.L., and Berry, J.T.
“Multistage Fatigue Modeling of Cast A356-T6 and A380-F Aluminum Alloys,”
Metallurgical and Materials Transactions B: Process Metallurgy and Materials
Processing Science, Vol. 38, No. 4, 2007, pp. 601-606.
181. McDowell, D.L., “Simulation-Assisted Materials Design for the Concurrent
Design of Materials and Products,” JOM, Vol. 59, No. 9, 2007, pp. 21-25.
182. Di Prima, M.A., Lesniewski, M., Gall, K., McDowell, D.L., Sanderson, T. and
Campbell, D., “Thermo-Mechanical Behavior of Epoxy Shape Memory Polymer
Foams,” Smart Materials and Structures, Vol. 16, 2007, pp. 2330–2340.
183. Choi, H.J., McDowell, D.L., Allen, J.K., and Mistree, F., "An Inductive Design
Exploration Method for Hierarchical Systems Design under Uncertainty,”
Engineering Optimization, Vol. 40, No 4, 2008, pp. 287-307. 184. Tschopp, M.A. and McDowell, D.L., “Grain Boundary Dislocation Sources in
Nanocrystalline Copper,” Scripta Materialia, Vol. 58, No. 4, 2008, pp. 299-302. 185. Panchal, J., Choi, H.-J., Allen, J.K., McDowell, D.L., and Mistree, F., “A
Systems-Based Approach for Integrated Design of Materials, Products and Design
Process Chains,” Journal of Computer-Aided Materials Design, Vol. 14, No. 1,
2007, pp. 265-293.
186. Shenoy, M., Zhang, J., and McDowell, D.L., “Estimating fatigue sensitivity to
polycrystalline Ni-base superalloy microstructures using a computational
approach,” Fatigue and Fracture of Engineering Materials and Structures, Vol. 30,
No. 10, 2007, pp. 889-904.
187. Shenoy, M., Tjiptowidjojo, Y. and McDowell, D.L., “Microstructure-Sensitive
Modeling of Polycrystalline IN 100,” International Journal of Plasticity, Vol. 24,
2008, pp. 1694–1730.
188. Tschopp, M.A. and McDowell, D.L., “Influence of Single Crystal Orientation on
Homogeneous Dislocation Nucleation under Uniaxial Loading,” Journal of the
Mechanics and Physics of Solids, Vol. 56, 2008, pp. 1806–1830.
189. Choi, H.J., McDowell, D.L., Allen, J.K., Rosen, D., and Mistree, F., “An
Inductive Design Exploration Method for Robust Multiscale Materials Design,”
Journal of Mechanical Design, Vol. 130, No. 3, 2008, 031402-1-13. 190. Tschopp, M.A., Tucker, G.J., and McDowell, D.L., “Atomistic Simulations of
Tension-Compression Asymmetry in Dislocation Nucleation for Copper Grain
Boundaries,” Computational Materials Science, Vol. 44, No. 2, 2008, pp. 351–
362.
191. Tjiptowidjojo, Y., Przybyla, C., Shenoy, M., and McDowell, D.L.,
“Microstructure-Sensitive Notch Root Analysis for Dwell Fatigue in Ni-Base
Superalloys,” International Journal of Fatigue, Vol. 31, No. 3, 2009, pp. 515-525.
192. McDowell, D.L. and Olson, G.B., “Concurrent Design of Hierarchical Materials
and Structures,” Scientific Modeling and Simulation (CMNS), Vol. 15, No. 1,
2008, pp. 207-240.
193. McDowell, D.L., “Viscoplasticity of Heterogeneous Metallic Materials,”
Materials Science and Engineering R: Reports, Vol. 62, Issue 3, 2008, pp. 67-123.
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194. Gordon, A.P., Neu, R.W., and McDowell, D.L., Effect of Pre-Exposure on Crack
Initiation Life of a Directionally-Solidified Ni-base Superalloy,” International
Journal of Fatigue, Vol. 31, 2009, pp. 393-401.
195. Haldrup, K., McGinty, R.D., and McDowell, D.L., “Effects of Constraints on
Lattice Reorientation and Strain in Polycrystal Plasticity Simulations,”
Computational Materials Science, Vol. 44, No. 4, 2009, pp. 1198-1207.
196. Bridier, F., McDowell, D.L., Patrick Villechaise, P., and Mendez, J., “Crystal
Plasticity Modeling of Slip Activity in Ti-6Al-4V under High Cycle Fatigue
Loading,” International Journal of Plasticity, Vol. 25, No. 6, 2009, pp. 1066-
1082.
197. Zhang, J., Prasannavenkatesan, R., Shenoy, M.M., and McDowell, D.L.,
“Modeling Fatigue Crack Nucleation at Primary Inclusions in Carburized and
Shot-Peened Martensitic Steel,” Engineering Fracture Mechanics, Vol. 76, No. 3,
2009, pp. 315-334.
198. Prasannavenkatesan, R., Zhang, J., McDowell, D.L., Olson, G.B., and Jou, H.-J.,
“3D Modeling of Subsurface Fatigue Crack Nucleation Potency of Primary
Inclusions in Heat Treated and Shot Peened Martensitic Gear Steels,”
International Journal of Fatigue, Vol. 31, No. 7, 2009, pp. 1176-1189.
199. Prasannavenkatesan, R. McDowell, D.L., Olson, G.B., and Jou, H.-J., “Modeling
Effects of Compliant Coatings on HCF Resistance of Primary Inclusions in High
Strength Steels,” ASME Journal of Engineering Materials and Technology, Vol.
131, 2009, pp. 0110112-1-6.
200. Spearot, D.E., Tschopp, M.A., and McDowell, D.L., “Orientation and Rate
Dependence of Dislocation Nucleation Stress Computed using Molecular
Dynamics,” Scripta Materialia, Vol. 60, No. 8, 2009, pp. 675-678. 201. Derlet, P.M., Gumbsch, P., Hoagland, R., Li, J., McDowell, D.L., Van
Swygenhoven, H., and Wang, J., “Atomistic simulations of dislocations in
confined volumes,” MRS Bulletin, Vol. 34, No. 3, 2009, pp. 184-189.
202. Zhang, M., McDowell, D.L., and Neu, R.W., “Microstructure Sensitivity of
Fretting Fatigue Based on Computational Crystal Plasticity,” Tribology
International, Vol. 42, No. 9, 2009, pp. 1286-1296. 203. Kumar, R.S. and McDowell, D.L., “Multifunctional Design of Two-Dimensional
Cellular Materials with Tailored Mesostructure,” International Journal of Solids
and Structures, Vol. 46, 2009, pp. 2871–2885.
204. Zhang, M., Neu, R.W. and McDowell, D.L., “Microstructure-Sensitive Modeling:
Application to Fretting Contacts,” International Journal of Fatigue, Volume 31,
Issues 8-9, August-September 2009, pp. 1397-1406.
205. Przybyla, C., Prasannavenkatesan, R., Salajegheh, N. and McDowell, D.L.,
“Microstructure-Sensitive Modeling of High Cycle Fatigue,” International Journal
of Fatigue, Special issue on Fatigue of Materials: Competing Failure Modes and
Variability in Fatigue Life, ed. K S. Ravi Chandran et al. Vol. 32, No. 3, 2010, pp.
512-525.
206. Xue, Y., Wright, A.M., McDowell, D.L., Horstemeyer, M.F., Solanki, K., and
Hammi, Y., “Micromechanics Study of Fatigue Damage Incubation Following an
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Initial Overstrain,” ASME Journal of Engineering Materials and Technology, Vol.
132, No. 2, 2010, pp. 0210101-0210108.
207. Przybyla, C.P. and McDowell, D.L., “Microstructure-Sensitive Extreme Value
Probabilities for High Cycle Fatigue of Ni-Base Superalloy IN100,” International
Journal of Plasticity, Vol. 26, No. 3, 2010, pp. 372-394.
208. Spearot, D.E. and McDowell, D.L., “Atomistic Modeling of Grain Boundaries
and Dislocation Processes in Metallic Polycrystalline Materials,” ASME Journal
of Engineering Materials and Technology, Vol. 131, No. 4, 2009, pp. 0412041-
0412049.
209. Tucker, G.J., Zimmerman, J.A., and McDowell, D.L., “Shear Deformation
Kinematics of Bicrystalline Grain Boundaries in Atomistic Simulations,”
Modeling and Simulation in Materials Science and Engineering, Vol. 18, No. 1,
2010, 015002.
210. Jordon, J., Horstemeyer, M., Yang, N., Major, F., Gall, K., Fan, J. and McDowell,
D.L., “Microstructural Inclusion Influence on Fatigue of a Cast A356 Aluminum
Alloy,” Met Trans A, Vol. 41, No. 2, 2010, pp. 356-363.
211. Zhang, M., Bridier, F., Villechaise, P., Mendez, J., and McDowell, D.L.,
“Simulation of Slip Band Evolution in Duplex Ti-6Al-4V,” Acta Materialia, Vol.
58, 2010, pp. 1087-1096.
212. Di Prima, M., Gall, K., McDowell, D.L., Guldberg, R., Lin, A., Sanderson, T.,
Campbell, D. and Arzberger, S., Deformation of Epoxy Shape Memory Polymer
Foams: Part I - Experiments and Macroscale Constitutive Modeling,” Mechanics
of Materials, Vol. 42, 2010, pp. 304-314.
213. Di Prima, M., Gall, K., McDowell, D.L., Guldberg, R., Lin, A., Sanderson, T.,
Campbell, D. and Arzberger, S., “Deformation of Epoxy Shape Memory Polymer
Foams: Part II - Mesoscale Modeling and Simulation,” Mechanics of Materials,
Vol. 42, 2010, pp. 315-325.
214. Di Prima, M., Gall, K., McDowell, D.L., Guldberg, R., Lin, A., Sanderson, T.,
Campbell, D., Arzberger, S.C., “Cyclic Compression Behavior of Epoxy Shape
Memory Polymer Foam,” Mechanics of Materials, Vol. 42, 2010, pp. 405-416.
215. Owolabi, G.M., Prasannavenkatesan, R., and McDowell, D.L., “Probabilistic
Framework for a Microstructure-Sensitive Fatigue Notch Factor for Nonlocal
Notch Root Analysis,” International Journal of Fatigue, Vol. 32, No. 8, 2010, pp.
1378-1388.
216. McDowell, D.L. and Dunne, F.P.E., “Microstructure-Sensitive Computational
Modeling of Fatigue Crack Formation,” International Journal of Fatigue, Special
Issue on Emerging Frontiers in Fatigue, Vol. 32, No. 9, 2010, pp. 1521-1542.
217. McDowell, D.L., “A Perspective on Trends in Multiscale Plasticity,” International
Journal of Plasticity, special issue in honor of David L. McDowell, Vol. 26, No.
9, 2010, pp. 1280-1309.
218. Austin, R.A. and McDowell, D.L., “A Viscoplastic Constitutive Model for
Polycrystalline fcc Metals at Very High Rates of Deformation,” International
Journal of Plasticity, Vol. 27, No. 1, 2011, pp. 1-24.
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219. Prasannavenkatesan, R. and McDowell, D.L.” Polycrystal Plasticity Modeling of
Cyclic Residual Stress Relaxation in Shot Peened Martensitic Gear Steel,” ASME
Journal of Engineering Materials and Technology, Vol. 132, 2010, 031011.
220. Luscher, D.J., McDowell, D.L., and Bronkhorst, C.A., “A Second Gradient
Theoretical Framework for Hierarchical Multiscale Modeling of Materials,” Int. J.
Plasticity, Vol. 26, No. 8, 2010, pp. 1248-1275. 221. Tucker, G.J., Tschopp, M.A., and McDowell, D.L., “Evolution of Structure and
Free Volume in Symmetric Tilt Grain Boundaries during Dislocation Nucleation,”
Acta Materialia, Vol. 58, 2010, pp. 6464–6473.
222. Luscher, D.J., McDowell, D.L., and Bronkhorst C.A., “Essential Features of Fine
Scale Boundary Conditions for Second Gradient Multiscale Homogenization of
Statistical Volume Elements,” Int. Journal of Multiscale Computational
Engineering, Vol. 10, No. 5, 2012, pp. 461–486.
223. Tucker, G.J. and McDowell, D.L., “Non-Equilibrium Grain Boundary Structure
and Inelastic Deformation using Atomistic Simulations,” International Journal of
Plasticity, Vol. 27, No. 6, 2011, pp. 841-857.
224. Mayeur, J.R., McDowell, D.L., and Bammann, D.J., “Dislocation-Based
Micropolar Single Crystal Plasticity: Comparison of Multi- and Single-Criterion
Theories,” Journal of Mechanics and Physics of Solids, Vol. 59, No. 2, 2011, pp.
398-422. 225. Xiong, L., Tucker, G.J., McDowell, D.L., and Chen, Y., “Coarse-Grained
Atomistic Simulation of Dislocations,” Journal of the Mechanics and Physics of
Solids, Vol. 59, 2011, pp. 160-177.
226. McDowell, D.L., Ghosh, S., and Kalidindi, S.R., “Representation and
Computational Structure-Property Relations of Random Media,” JOM, Vol. 63,
No. 3, 2011, pp. 45-51.
227. Przybyla, C.P. and McDowell, D.L., “Simulated Microstructure-Sensitive
Extreme Value Probabilities for High Cycle Fatigue of Duplex Ti-6Al-4V,”
International Journal of Plasticity, Special Issue in Honor or Nobutada Ohno, Vol.
27, No. 12, 2011, pp. 1871-1895.
228. Mayeur, J.R., and McDowell, D.L., “Bending of Single Crystal Thin Films as
Predicted by Micropolar Crystal Plasticity,” special issue of the Int. J.
Engineering Science in memorium to C. Eringen, Vol. 49, 2011, pp. 1357-1366.
229. Prasannavenkatesan, R., Przybyla, C.P., Salajegheh, N., and McDowell, D.L.
”Simulated Extreme Value Fatigue Sensitivity to Inclusions and Pores in
Martensitic Gear Steels,” Engineering Fracture Mechanics, Vol. 78, No. 6, 2011,
pp. 1140-1155.
230. Chen, Y., Zimmerman, J., Kristov, A., and McDowell, D.L., “Assessment of
Coarse-Graining Methods for Atomistics,” Special Issue of the Int. J. Engineering
Science in memorium to C. Eringen, Vol. 49, 2011, pp. 1337-1349.
231. Lloyd, J.T., Zimmerman, J.A., Jones, R.E., Zhou, X.W., and McDowell, D.L.,
Implementation and Verification of an Atomistically-Derived Cohesive Model of
Brittle Fracture,” Modeling and Simulation in Materials Science & Engineering,
Vol. 19, 2011, p. 065007.
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232. Przybyla, C.P. and McDowell, D.L., “Microstructure-Sensitive Extreme Value
Probabilities of High Cycle Fatigue for Surface vs. Subsurface Crack Formation
in Duplex Ti-6Al-4V,” Acta Materialia, Vol. 60, No. 1, 2012, pp. 293-305.
233. Musinski, W.D. and McDowell, D.L., “Microstructure-Sensitive Probabilistic
Modeling of HCF Crack Initiation and Early Crack Growth in Ni-Base Superalloy
IN100 Notched Components,” International Journal of Fatigue, Vol. 37, 2012, pp.
41-53.
234. Tucker, G.J., Zimmerman, J.A., and McDowell, D.L., “Continuum Metrics for
Deformation and Microrotation from Atomistic Simulations: Application to Grain
Boundaries,” special issue of the Int. J. Engineering Science in memoriam to C.
Eringen, Vol. 49, 2011, pp. 1424-1434.
235. Svoboda, J., Fischer, F.D., and McDowell, D.L, “Derivation of the Phase Field
Equations from the Thermodynamic Extremal Principle,” Acta Materialia, Vol.
60, No. 1, 2012, pp. 396-406.
236. Patra, A. and McDowell, D.L., “Crystal Plasticity-Based Constitutive Modeling
of Irradiated bcc Structures,” Philosophical Magazine, Vol. 92, No. 7, 2012, pp.
861-887.
237. Xiong, L., Deng, Q., Tucker, G.J., McDowell, D.L., and Chen, Y., “A Concurrent
Scheme for Passing Dislocations from Atomistic to Continuum Regions,” Acta
Materialia, Vol. 60, No. 3, 2012, pp. 899-913.
238. Tucker, G.J., Tiwari, S., Zimmerman, J.A., and McDowell, D.L., “Investigating
the Deformation of Nanocrystalline Copper with Microscale Kinematic Metrics
and Molecular Dynamics,” Journal of the Mechanics and Physics of Solids, Vol.
60, No. 3, 2012, pp. 471-486.
239. Austin, R.A. and McDowell, D.L., “Parameterization of a Rate-Dependent Model
of Shock-Induced Plasticity for Copper, Nickel and Aluminum,” Int. J. Plasticity,
Vol.32-33, 2012, pp. 134-154. 240. Wang, W., Zhong, Y., Lu, K., Lu, L, McDowell, D.L., and Zhu, T.,”Size Effects
and Strength Fluctuation in Nanoscale Plasticity,” Acta Materialia, Vol. 60, 2012,
pp. 3302-3309. 241. Xiong, L., Deng, Q., Tucker, G.J., McDowell, D.L., and Chen, Y., “Coarse-
Grained Atomistic Simulations of Dislocations in Al, Ni and Cu Crystals,”
International Journal of Plasticity, Vol. 38, 2012, pp. 86-101.
242. Austin, R.A., McDowell, D.L., and Benson, D.J., “Mesoscale Simulation of
Shock Wave Propagation in Discrete Ni/Al Powder Mixtures, J. Applied Physics,
Vol. 111, No. 12, 2012, pp. 123511-123511-9.
243. Luscher, D.J., Bronkhorst, C., and McDowell, D.L., “Effects of Local and
Nonlocal Substructure Spin on Localization in Tantalum Tophat Specimen,”
Technische Mechanik, 32, 2-5, 2012, pp. 393-407.
244. Castelluccio, G.M. and McDowell, D.L., “Assessment of Small Fatigue Crack
Growth Driving Forces in Single Crystals with and without Slip Bands, Int.
Journal of Fracture, Vol. 176, No. 1, 2012, pp. 49-64.
245. Fromm, B.S., Chang, K., McDowell, D.L., Chen, L-Q., and Garmestani, H.,
“Linking Phase Field and Finite Element Modeling for Structure-Property
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Relations of a Ni-Base Superalloy,” Acta Materialia, Vol. 60, No. 17, 2012, pp.
5984-5999.
246. Panchal, J.H., Kalidindi, S.R., and McDowell, D.L., “Key Computational
Modeling Issues in ICME,” Computer-Aided Design, Vol. 45, No. 1, 2013, pp. 4–
25.
247. Xiong, L., McDowell, D.L., and Chen, Y., “Nucleation and Growth of
Dislocation Loops in Cu, Al and Si by a Coupled Atomistic-Continuum Method,”
Scripta Materialia, Vol. 67, 2012, pp. 633-636.
248. Patra, A. and McDowell, D.L., “Continuum Modeling of Localized Deformation
in Irradiated bcc Materials,” Journal of Nuclear Materials, Vol. 432, No. 1-3,
2013, pp. 414–427.
249. Tiwari, S., Tucker, G.J. and McDowell, D.L., “Simulated defect growth
avalanches during elastic-plastic deformation of Nanocrystalline Cu,”
Philosophical Magazine, Vol. 93, No. 5, 2013, pp. 478-498.
250. Przybyla, C., Musinski, W., Castelluccio, G., and McDowell, D.L.,
“Microstructure-Sensitive HCF and VHCF Simulations,” Int. J. Fatigue, Vol. 57,
2013, pp. 9-27.
251. Buck, J.J., McDowell, D.L., and Zhou, M., “Effect of Microstructure on Load-
Carrying and Energy-Dissipation Capacities of Ultra-High Performance
Concerete,” Cement and Concrete Research, Vol. 43, 2013, pp. 34–50.
252. Castelluccio, G.M. and McDowell, D.L., “Effect of Annealing Twins on Crack
Initiation under High Cycle Fatigue Conditions,” Journal of Materials Science,
Vol. 48 no. 6, 2013, pp. 2376-2387.
253. Mayeur, J.R. and McDowell, D.L., “An Evaluation of Higher-Order Single
Crystal Strength Models for Constrained Thin Films Subjected to Simple Shear,”
Journal of the Mechanics and Physics of Solids, Vol. 61, No. 9, 2013, pp. 1935-
1954.
254. McDowell, D.L., “Incentivize Sharing,” a comment on Sharing Data in Materials
Science, Nature, Vol. 503, No. 7477, Nov. 2013, pp. 463-464.
http://www.nature.com/news/technology-sharing-data-in-materials-science-
1.14224
255. Buck, J.J., McDowell, D.L., and Zhou, M., “Microstructure-Performance
Relations of UHPC accounting for effects of a-quartz-to-coesite silica phase
transformation, International Journal of Solids and Structures, Vol. 50, No. 11-12,
2013, pp. 1879-1896.
256. Clayton, J.D., Hartley, C.S., and McDowell, D.L., “The Missing Term in the
Decomposition of Finite Deformation,” International Journal of Plasticity, Vol.
52, 2014, pp. 51-76.
257. Salajegheh, N. and McDowell, D.L., “Microstructure-Sensitive Weighted
Probability Approach for Modeling Surface to Bulk Transition of High Cycle
Fatigue Failures Dominated by Primary Inclusions,” International Journal of
Fatigue, Vol. 59, 2014, pp. 188-199.
258. Smith, B.D., Shih, D., and McDowell, D.L., “Cyclic Plasticity Experiments and
Polycrystal Plasticity Modeling of Three Distinct Ti Alloy Microstructures,” Int.
J. Plasticity, 2013, https://doi.org/10.1016/j.ijplas.2013.10.004.
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259. Xiong, L., McDowell, D.L., and Chen, Y., “Sub-THz Phonon Drag on
Dislocations by Coarse-grained Atomistic Simulations,” International Journal of
Plasticity, Vol. 55, 2014, pp. 268–278.
260. Smith, B.D., Shih, D., and McDowell, D.L., “Fatigue Hot Spot Simulation for
Two Widmanstätten Titanium Microstructures,” International Journal of Fatigue,
Vol. 92, 2016, pp. 116-129.
261. Ellis, B.D., DiPaolo, B.P., McDowell, D.L., and Zhou, M., “Experimental
investigation and multiscale modeling of Ultra-High-Performance Concrete
panels subject to blast loading,” Int. J. Impact Engineering, Vol. 69, 2014, pp. 95-
103.
262. Austin, R.A., McDowell, D.L., and Benson, D.J., “The deformation and mixing of
several Ni/Al powders under shock wave loading: effects of initial configuration,”
Modeling and Simulation in Materials Science and Engineering, Vol. 22, 2014, p.
025018.
263. Ellis, B.D., McDowell, D.L., and Zhou, M., “Simulation of Single Fiber Pullout
Response with Account of Fiber Morphology,” Cement and Concrete
Composites, Vol. 48, 2014, pp. 42-52.
264. Castelluccio, G.M., and McDowell, D.L., “A Mesoscale Approach for Growth of
3D Microstructurally Small Fatigue Cracks in Polycrystals,” Int. J. Damage
Mechanics, Vol. 23, No. 6, 2014, pp. 791-818.
265. Narayanan, S., McDowell, D.L., and Zhu, T., “Crystal Plasticity Model for BCC
Iron Atomistically Informed by Kinetics of Correlated Kinkpair Nucleation on
Screw Dislocations,” Journal of the Mechanics and Physics of Solids, Vol. 65,
2014, pp. 54-68.
266. Mayeur, J.R. and McDowell, D.L., “A Comparison of Gurtin-Type and
Micropolar Single Crystal Plasticity with Generalized Stresses,” International
Journal of Plasticity, Vol. 57, 2014, pp. 29-51.
267. Castelluccio, G.M., Musinski, W.D. and McDowell, D.L., “Recent Developments
in Assessing Microstructure-Sensitive Early Stage Fatigue of Polycrystals,”
Current Opinion in Solid State and Materials Science, Vol. 18, No. 4, 2014, pp.
180-187.
268. Castelluccio, G.M., and McDowell, D.L., "Mesoscale Modeling of
Microstructurally Small Fatigue Cracks in Metallic Polycrystals," Mat. Sci. Eng.
A, Vol. 598, No. 26, 2014, pp. 34-55.
269. Li, Y., McDowell, D.L., and Zhou, M., “A Multiscale Framework for Predicting
Fracture Toughness of Polycrystalline Metals,” ASTM Special Issue on Fracture
Toughness for Materials Performance and Characterization, Ed. R.W. Neu, Vol.
3(3), 2014, doi10.1520/MPC20130064.
270. Dong, X., McDowell, D.L., Kalidindi, S.R., and Jacob, K.I., “Dependence of
mechanical properties on crystal orientation of semi-crystalline polyethylene
structures,” Polymer, Vol. 55, No. 16, 2014, pp. 4248-4257.
271. Salajegheh, N., Prasannavenkatesan, R., McDowell, D.L., Olson, G.B., and Jou,
H.-J., “Finite element simulation of shielding/intensification effects of primary
inclusion clusters in high strength steels under fatigue loading,” ASME J. Engng.
Mater. Technology, Vol. 136, No. 3, 2014, p. 031003 (8 pages).
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272. Patra, A., Zhu, T. and McDowell, D.L., “Constitutive equations for modeling non-
Schmid effects in single crystal bcc-Fe at low and ambient temperatures,” Int. J.
Plasticity, Vol. 59, 2014, pp. 1-14.
273. Lloyd, J.T., Clayton, J.D., Austin, R.A., and McDowell, D.L., “Plane wave
simulation of elastic-viscoplastic single crystals,” Journal of the Mechanics and
Physics of Solids, Vol. 69, 2014, pp. 14-32.
274. Lloyd, J.T., Clayton, J.D., Becker, R.C., and McDowell, D.L., “Simulation of
Shock Wave Propagation in Single Crystal and Polycrystalline Aluminum,” Int. J.
Plasticity, Vol. 60, 2014, pp. 118-144.
275. Xiong, L., Chen, X., McDowell, D.L., and Chen, Y., “Predicting Phonon
Properties of 1D Polyatomic Crystals through the Concurrent Atomistic-
Continuum Simulations,” Archives Applied Mechanics, special issue in Honor of
Professor G. Maugin, Vol. 84, 2014, pp. 1665-1675.
276. Xiong, L, McDowell, D.L., and Chen, Y., “Concurrent Atomistic-Continuum
Simulations of Dislocation-Void Interactions in fcc Crystals,” Int. J. Plasticity,
Vol. 65, 2015, pp. 33-42.
277. Van Beers, P.R.M., Kouznetsova, V.G., Geers, M.G.D., Tschopp, M.A., and
McDowell, D.L., “A Multi-scale Model of Grain Boundary Structure and Energy:
From Atomistic to Continuum Description,” Acta Materialia, Vol. 82, 2015, pp.
513–529.
278. Patra, A. and McDowell, D.L.,”A void nucleation and growth based damage
framework to model failure initiation ahead of a sharp notch in irradiated bcc
materials,” Journal of the Mechanics and Physics of Solids, Vol. 74, 2015, pp.
111–135.
279. Vandekerkhove, P., Padbidri, J.M., and McDowell, D.L., “Bootstrap Selection
Among a Collection of Non-embedded Mixture Models - Application to Extreme
Value Modeling in Metal Fatigue Problems,”Electronic Journal of Statistics, Vol.
8, No. 2, 2014, pp. 3141-3175.
280. McDowell, D.L. and Liu, Z.-K., “The Penn State-Georgia Tech CCMD: Ushering
in the ICME Era,” Integrating Materials and Manufacturing Innovation, TMS,
3(1), 2014, p. 28.
281. Patra, A., Priddy, M., and McDowell, D.L., “Modeling the effects of
microstructure on the tensile properties and micro-fracture behavior of Mo-Si-B
alloys at elevated temperatures,” Intermetallics, Vol. 64, 2015, pp. 6-17.
282. Xu, S., Che, R., Xiong, L., Chen, Y. and McDowell, D.L., “A Quasistatic
Implementation of the Concurrent Atomistic-Continuum Method for FCC
Crystals, International Journal of Plasticity, Vol. 72, 2015, pp. 91-126.
283. Castelluccio, G.M. and McDowell, D.L., “Microstructure and Mesh Sensitivities
of Mesoscale Surrogate Driving Force Measures for Transgranular Fatigue Cracks
in Polycrystals,” Materials Science and Engineering A, Vol. 639, 2015, pp. 626-
639.
284. Mayeur, J.R. and McDowell, D.L., “Micropolar Crystal Plasticity Simulations of
Particle Strengthening,” Modeling and Simulation in Materials Science and
Engineering, Vol. 23, No. 6, 2015, p. 065007.
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285. Lammi, C.J., Li, H., McDowell, D.L., and Zhou, M., “Dynamic Fracture and
Dissipation Behaviors of Concrete at the Mesoscale,” International Journal of
Applied Mechanics, Vol. 7, No. 3, 2015, p. 1550038-1-37.
286. Pineau, A., Antolovich, S.D., McDowell, D.L., and Busso, E.P., “Failure of
Metals II: Fatigue,” Acta Materialia, Vol. 109, No. 1, 2016, pp. 484–507.
287. Tiwari, S. and McDowell, D.L., “Shear Deformation Behavior of Cu Nanocrystals
Under Imposed Hydrostatic Stress,” ASME J. Applied Mechanics, 82(9), 2015,
091011-091011-11.
288. Lloyd, J.T., Clayton, J.D., Austin, R.A., and McDowell, D.L., “Shock
Compression Modeling of Metallic Single Crystals: Comparison of Finite
Difference, Steady Wave, and Analytical Solutions,” Advanced Modeling and
Simulation in Engineering Sciences, Vol.2, No. 14, 2015, doi:10.1186/s40323-
015-0036-6.
289. Musinski, W.D. and McDowell, D.L., “On the Eigenstrain Application of Shot-
peened Residual Stresses within a Crystal Plasticity Framework: Application to
Ni-base Superalloy Specimens,” International Journal of Mechanical Sciences,
Vol. 100, 2015, pp. 195-208.
290. Pluchino, P.A., Chen, X., Garcia, M., Xiong, L., McDowell, D.L., and Chen, Y.,
“Dislocation Migration across Coherent Phase Interfaces in SiGe Superlattices,”
Computational Materials Science, Vol. 111, 2016, pp. 1-6.
291. Castelluccio, G.M. and McDowell, D.L., “Microstructure-sensitive fatigue crack
growth assessment: effect of strain ratios, multiaxial straining and geometric
discontinuities,” International Journal of Fatigue, Vol. 82, 2016, pp. 521-529.
292. Tschopp, M.A., Coleman, S.P., and McDowell, D.L., “Symmetric and
Asymmetric Tilt Grain Boundary Structure and Energy in Cu and Al (and
transferability to other FCC metals),” Integrating Materials and Manufacturing
Innovation, 2015, 4:11, DOI 10.1186/s40192-015-0040-1.
293. Xiong, L., Rigelesaiyin, J., Chen, X., Xu, S., McDowell, D.L., and Chen, Y.,
“Coarse-Grained Elastodynamics of Fast Moving Dislocations,” Acta Materialia,
Vol. 104, 2016, pp. 143-155.
294. Xu, S., Xiong, L., Chen, Y. and McDowell, D.L., “Sequential slip transfer of
mixed character dislocations across Σ3 coherent twin boundary in FCC metals: A
concurrent atomistic-continuum study,” npj Computational Materials 2, 15016,
2016, doi:10.1038/npjcompumats.2015.16.
295. Zhou, X., Marchand, D., McDowell, D.L., Zhu, T. and Song, J.,
“Chemomechanical Origin of Hydrogen Trapping at Grain Boundaries in FCC
Metals,” Physical Review Letters, Vol. 116, No. 7, 2016, p. 075502.
296. Patra, A. and McDowell, D.L., “Crystal Plasticity Investigation of the
Microstructural Factors Influencing Dislocation Channeling in a Model Irradiated
BCC Material,” Acta Materialia, Vol. 100, 2016, pp. 364-376.
297. Xu, S., Xiong, L., Deng, Q., and McDowell, D.L., “Mesh Refinement Schemes
for the Concurrent Atomistic-Continuum Method,” International Journal of Solids
and Structures, Vol. 90, 2016, pp. 144-152.
-28-
298. Musinski, W. and McDowell, D.L., “Simulating the effect of grain boundaries on
microstructurally small fatigue crack growth from a FIB notch through a 3D array
of grains,” Acta Materialia, Vol. 112, 2016, pp. 20-39.
299. McDowell, D.L. and Kalidindi, S.R., “The Materials Innovation Ecosystem: A
Key Enabler for the Materials Genome Initiative,” MRS Bulletin, Vol. 41, 2016,
pp. 326-335.
300. Castelluccio, G.M., Musinski, W.D., and McDowell, D.L., “Computational
Micromechanics of Microstructures in the HCF-VHCF Regimes,” International
Journal of Fatigue, Vol. 93(2), 2016, pp. 387-396.
301. Xu, S., Xiong, L., Chen, Y. and McDowell, D.L., Edge dislocations bowing out
from a row of collinear obstacles in Al, Scripta Materialia, Vol. 123, 2016, pp.
135-139.
302. Weaver, J.S., Priddy, M.W., McDowell, D.L., and Kalidindi, S.R., “On Capturing
the Elastic and Plastic Anisotropy of alpha-Ti in Titanium Alloys with
Nanoindentation Experiments,” Acta Materialia, Vol. 117, 2016, pp. 23-34.
303. Xu, S., Xiong, L, Chen, Y. and McDowell, D.L., “An Analysis of Key
Characteristics of the Frank-Read Source Process in FCC Metals,” Journal of the
Mechanics and Physics of Solids, Vol. 96, 2016, pp. 460-476.
304. McDowell, D.L. and LeSar, R.A., “The Need for Microstructure Informatics in
Process-Structure-Property Relations,” MRS Bulletin, Vol. 41, 2016, pp. 587-593.
305. Kalidindi, S.R., Medford, A.J., and McDowell, D.L., “Vision for Data and
Informatics in the Future Materials Innovation Ecosystem,” JOM, Vol. 68, No. 8,
2016, pp. 2126-2137.
306. Xu, S., Xiong, L, Chen, Y., and McDowell, D.L., “Shear stress- and line length-
dependent screw dislocation cross-slip in FCC Ni,” Acta Materialia, Vol. 122,
2017, pp. 412-419.
307. Moore, A.P., Deo, C., Baskes, M.I., Okuniewski, M., and McDowell, D.L.,
“Understanding the Uncertainty of Interatomic Potentials’ Parameters and
Formalism,” Computational Materials Science, Vol. 126, 2017, pp. 308-320.
308. Ellis, B. and McDowell, D.L., “Application-specific computational materials
design via multiscale modeling and the Inductive Design Exploration Method
(IDEM),” IMMI Journal, 2017, DOI: 10.1007/s40192-017-0086-3.
309. Hennessey, C., Castelluccio, G.M., and McDowell, D.L., “Sensitivity of
Polycrystal Plasticity to Slip System Kinematic Hardening Laws for Al 7075-T6,”
Materials Science and Engineering A, Vol. 687, 2017, pp. 241-248.
310. Sobie, C., Capolungo, L., McDowell, D.L., and Martinez, E., “Modal Analysis of
Dislocation Vibration and Reaction Attempt Frequency,” Acta Materialia, Vol.
134, No. 1, 2017, pp. 203-210.
311. Paulson, N.H., Priddy, M.W., McDowell, D.L., and Kalidindi, S.R., “Reduced-
Order Structure-Property Linkages for Polycrystalline Microstructures Based on
2-Point Statistics,” Acta Materialia, Vol. 129, 2017, pp. 428–438.
312. Xu, S., Xiong, L., Chen, Y., and McDowell, D.L., “Comparing EAM Potentials to
Model Slip Transfer of Sequential Mixed Character Dislocations Across Two
Symmetric Tilt Grain Boundaries in Ni,” JOM, 69(5), 2017, 814-821.
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313. Xu, S., Startt, J.K., Payne, T.G., Deo, C.S., and McDowell, D.L., “Size-
Dependent Plastic Deformation of Twinned Nanopillars in Body-Centered Cubic
Tungsten,” J. Applied Physics, Vol. 121 (17), 2017, 175101.
314. Xu, S., Xiong, L., Chen, Y., and McDowell, D.L., “Validation of the Concurrent
Atomistics-Continuum Method on Screw Dislocation/Stacking Fault
Interactions,” Crystals, Vol. 7, No. 5, 2017, p. 120.
315. Chen, X., Xiong, L., McDowell, D.L., and Chen, Y., “Effects of Phonons on
Mobility of Dislocations and Dislocation Arrays,” Scripta Materialia, Vol. 137,
2017, pp. 22-26.
316. Sobie, C., Capolungo, L., McDowell, D.L., Martinez, E., “Scale Transition using
Dislocation Dynamics and the Nudged Elastic Band Method,” Journal of the
Mechanics and Physics of Solids, Vol. 105, 2017, pp. 161-178.
317. Sobie, C., McDowell, D.L., Martinez, E., Capolungo, L., “Thermal Activation of
Dislocations in Large Scale Obstacle Bypass,” Journal of the Mechanics and
Physics of Solids, Vol. 105, 2017, pp. 150-160.
318. Castelluccio, G.M and McDowell, D.L., “Mesoscale Cyclic Crystal Plasticity
with Dislocation Substructures,” International Journal of Plasticity, Vol. 98, 2017,
pp. 1-26.
319. Huang, S., Chen, D., Song, J., McDowell, D.L., and Zhu, T., "Hydrogen
embrittlement of grain boundaries in nickel: An atomistic study", npj
Computational Materials 3, 28, 2017. doi:10.1038/s41524-017-0031-1.
320. Priddy, M.W., Paulson, N.H., Kalidindi, S.R., and McDowell, D.L., “Strategies
for Rapid Parametric Assessment of Microstructure-Sensitive Fatigue for HCP
Polycrystals, International Journal of Fatigue, Vol. 104, 2017, pp. 231-242.
321. Kern, P.C., Priddy, M.W., Ellis, B.D., and McDowell, D.L., “pyDEM: A
Generalized Implementation of the Inductive Design Exploration Method,”
Materials & Design, Vol. 134, 2017, pp. 293-300.
322. Chen, X., Li, W., Diaz, A., Li, Y., McDowell, D.L., Chen, Y., “Recent Progress
in the Concurrent Atomistic-Continuum (CAC) Method and Its Application in
Phonon Transport,” MRS Communications, Vol. 7, No. 4, 2017, pp. 785-797.
323. Chen, X., Diaz, A., Xiong, L., McDowell, D.L., and Chen, Y., “Passing Waves
from Atomistic to Continuum,” Journal of Computational Physics, Vol. 354,
2018, pp. 393-402.
324. Tallman, A., Swiler, L.P., Wang, Y., and McDowell, D.L., “Reconciled Top-
down and Bottom-up Hierarchical Multiscale Calibration of bcc Fe Crystal
Plasticity,” International Journal for Computer Methods in Engineering, 15(6),
2017, pp. 1–19.
325. Li, W., Xiong, L., Yang, S., Zheng, Z., McDowell, D.L., and Chen, Y., “Ballistic-
diffusive Phonon Heat Transport across Grain Boundaries,” Acta Materialia, Vol.
136, No. 1, 2017, pp. 355-365.
326. Xu, S., Rigelesaiyin, J., Xiong, L., Chen, Y., and McDowell, D.L., “Generalized
Continua Concepts in Coarse-Graining Atomistic Simulations,” Springer Special
Volume in Memoriam to Prof. G. Maugin, 2018, pp. 237-260. Springer
International Publishing AG, H. Altenbach et al. (eds.), Generalized Models and
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Non-classical Approaches in Complex Materials 2, Advanced Structured
Materials 90, https://doi.org/10.1007/978-3-319-77504-3_12.
327. Xu, S., Payne, T.G., Chen, H., Liu, Y., Xiong, L. Chen, Y. and McDowell, D.L.,
“pyCAC: The concurrent atomistic continuum simulator with a Python scripting
interface,” MRS Journal of Materials Research, focused issue on Advanced
Atomistic Algorithms in Materials Science, 1-15, doi:10.1557/jmr.2018.8.
328. Diaz, A., McDowell, D.L., and Chen, Y., “The Limitations and Successes of
Concurrent Dynamic Multiscale Modeling Methods at the Mesoscale,” Chapter 3,
Springer Special Volume in Memoriam to Prof. G. Maugin, 2018, pp. 55-77,
Springer International Publishing AG, H. Altenbach et al. (eds.), Generalized
Models and Non-classical Approaches in Complex Materials 2, Advanced
Structured Materials 90, https://doi.org/10.1007/978-3-319-77504-3_3.
329. Mayeur, J.R., McDowell, D.L., and Forest, S., “Micropolar Crystal Plasticity,”
Handbook of Nonlocal Continuum Mechanics for Materials and Structures, edited
by George Z. Voyiadjis, Springer International Publishing AG, 2018,
doi:10.1007/978-3-319-22977-5_48-1.
330. Forest, S., Mayeur, J.R., and McDowell, D.L., “Micromorphic Crystal Plasticity,”
Handbook of Nonlocal Continuum Mechanics for Materials and Structures, edited
by George Z. Voyiadjis, Springer, accepted January 2018.
331. Paulson, N.H., Priddy, M.W., McDowell, D.L., and Kalidindi, S.R., “Data-Driven
Reduced-Order Models for Ranking the High Cycle Fatigue Performance of
Polycrystalline Microstructures,” Materials and Design, Vol. 154, No. 15, 2018,
pp. 170-183.
332. Clark, B.C., Castelluccio, G.M., Reiterer, M., McDowell, D.L., and Neu, R.W.,
“Microstructure-Sensitive Fatigue Modeling of Medical-Grade Fine Wire,”
Fatigue and Fracture of Engineering Materials and Structures, June 2018, DOI
10.1111/ffe.12879.
333. Castelluccio, G.M., Geller, C.B., and McDowell, D.L., “A Rationale for Modeling
Hydrogen Effects on Plastic Deformation across Scales in FCC Metals,”
International Journal of Plasticity, July 2018, DOI 10.1016/j.ijplas.2018.07.009.
B2. Conference Presentation with Proceedings (Refereed)
1. McDowell, D.L., Ho, K. and Moosbrugger, J.C., "Continuum Damage
Representation of Creep-Dominated, Nonproportional Cyclic Loading," Proc. Int.
Seminar on High Temperature Fracture Mechanisms and Mechanics, Dourdan,
France, Oct. 13-15, 1987; in High Temperature Fracture Mechanisms and
Mechanics, EGF6, Ed. P. Bensussan, Mechanical Engineering Publications,
London, 1990, pp. 51-74.
2. McDowell, D.L. and Moosbrugger, J.C., "A Generalized Rate-Dependent
Bounding Surface Model," ASME PVP-Vol. 129, Eds.Chang, Gwaltney and
McCawley, 1987, pp. 1-11. Presented at ASME Pressure Vessels and Piping
Division Fall Conference, Knoxville, TN, October 1987.
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3. McDowell, D.L. and Berard, J.Y., "A J-Based Approach to Biaxial Low Cycle
Fatigue of Shear Damaging Materials," Third International Conference on
Biaxial/Multiaxial Fatigue, Stuttgart, FRG, April 3-6, 1989.
4. McDowell, D.L. and Leung, C., "Implications of Primary Creep and Damage for
Creep Crack Extension Criteria," Proc. 1989 ASME-JSME PVP Conf., Honolulu,
Hawaii, July 23-27, 1989.
5. McDowell, D.L. and Moyar, G.J., "Parametric Study of Cyclic Plastic
Deformation in Rolling and Sliding Line Contact with Realistic Nonlinear
Material Behavior," Third International Conference on Contact Mechanics and
Wear of Rail/Wheel Systems, Cambridge, England, July 22-26, 1990.
6. McDowell, D.L., "Micromechanical Implications for State Variable
Viscoplasticity," ASME WAM Conference on High Temperature Constitutive
Modeling - Theory and Application, ASME MD-Vol. 26/AMD-Vol. 121, 1991,
pp. 103-114.
7. McDowell, D.L. and Miller, M.P., "Physically Based Microcrack Propagation
Laws for Creep-Fatigue-Environment Interaction," ASME WAM Conference on
Creep-Fatigue-Environmental Interactions under High Temperatures, Physical
Mechanisms, Theoretical Models and Practical Implementation, ASME-AD Vol.
21, 1991, pp. 19-30.
8. Miller, M.P. and McDowell, D.L., "Stress State Dependence of Finite Strain
Inelasticity," ASME Summer Applied Mechanics Meeting, Tucson, AZ, ASME
MD-Vol. 32, Microstructural Characterization in Constitutive Modeling of Metals
and Granular Media, 1992, pp. 27-44.
9. Horstemeyer, M.F. and McDowell, D.L., "Stress State and History Effects in
Viscoplasticity at Finite Strain," in Finite Deformation Viscoplasticity, eds. R.C.
Batra and T.W. Wright, ASME MD-Vol. 69-1, 1995, pp. 519-543.
10. McDowell, D.L., "A Model for Multiaxial Small Fatigue Crack Growth," in
Engineering Against Fatigue, Eds. J.H. Beynon, M.W. Brown, T.C. Lindley, R.A.
Smith and B. Tomkins, Balkema Press, Chapter 29, 1999, pp. 277-285.
11. McDowell, D.L., Fan, J. and Horstemeyer, M.F., "Multi-Length Scale Analyses
of Cyclically Loaded A356 Aluminum Alloy,” presented at the 103rd Casting
Congress and CastExpo, St. Louis, MO, March 13-16, 1999.
12. Seepersad, C.C., J.K. Allen, D.L. McDowell and F. Mistree, "Robust Topological
Design of Cellular Materials," ASME Advances in Design Automation, Chicago,
IL. DETC2003/DAC-48772, September 2-6, 2003.
13. Seepersad, C. C., J. K. Allen, D. L. McDowell and F. Mistree, "Robust Design of
Cellular Materials with Topological and Dimensional Imperfections,"
Proceedings of the ASME International Design Engineering Technical
Conferences and Computers and Information in Engineering Conference -
DETC2005, v 2 B, Proceedings of the ASME International Design Engineering
Technical Conferences and Computers and Information in Engineering
Conferences - DETC2005: 31st Design Automation Conference, 2005, p 807-821.
14. Seepersad, C. C., J. K. Allen, D. L. McDowell and F. Mistree, "Multifunctional
Topology Design of Cellular Material Structures," ASME Advances in Design
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Automation Conference, Philadelphia, PA. Paper Number: DETC2006/DAC-
99373, 2006.
15. Tjiptowidjojo, Y., Przybyla, C., Shenoy, M., and McDowell, D.L.,
“Microstructure-Sensitive Notch Root Analysis for Ni-Base Superalloys,” TMS
Conference on Very High Cycle Fatigue, Ann Arbor, MI, August 20-22, 2007.
16. Messer, M., J. H. Panchal, J. K. Allen, D. L. McDowell and F. Mistree, ”A
Function-based Approach for Integrated Design of Material and Product
Concepts,” DETC2007-35743, Proceedings of IDETC/CIE 2007, ASME 2007
International Design Engineering Technical Conferences & Design Automation
Conference, September 4-7, 2007, Las Vegas, Nevada.
17. Muchnick, H., J.K. Allen, D.L. McDowell, and F. Mistree, “A Template-Based
Approach for Multilevel Blast Resistant Panel Design,” DETC2007-35447,
Proceedings of IDETC/CIE 2007, ASME 2007 International Design Engineering
Technical Conferences & Computers and Information in Engineering Conference
September 4-7, 2007, Las Vegas, Nevada.
18. Sinha, A., Chakraborty, M., Ghosh, S., Kumar, C.S., Panchal, J.H., Allen, J.K.,
McDowell, D.L., Mistree, F., “Microstructure-Mediated Integration of Material
and Product Design – Undersea Submersible,” Proceedings of IDETC/CIE 2009
ASME 2009 International Design Engineering Technical Conferences &
Computers and Information in Engineering Conference August 30-September 2,
2009, San Diego, CA. 19. Luscher, D.J. and McDowell, D.L., “An Extended Multiscale Principle of Virtual
Velocities Approach for Evolving Microstructure,” Mesomechanics 2009, Oxford
University, Elsevier, Procedia Engineering, Vol. 1, No. 1, 2009, pp. 117-121.
20. Lloyd, J.T., Clayton, J.D., Austin, R.A., and McDowell, D.L., “Modeling Single-
Crystal Microstructure Evolution due to Shock Loading,” 18th APS-SCCM and
24th AIRAPT, Journal of Physics, Conference Series 500, 2014, 112040.
B3. Other Refereed Material
1. McDowell, D.L., “New and Improved Materials in the Next Production
Revolution,” Organization for Economic Cooperation and Development (OEDC),
OECD (2017), The Next Production Revolution: Implications for Governments
and Business, OECD Publishing, Paris, pp. 215-239.
DOI: http://dx.doi.org/10.1787/9789264271036-en
C. Other Publications and Creative Products
C1. Non-Refereed Conference Presentations with Proceedings
1. McDowell, D. L., "On the Path Dependence of Transient Hardening and
Softening to Stable States Under Complex Biaxial Cyclic Loading," Proc. of Int.
Conf. on Constitutive Laws for Engineering Materials: Theory and Applications,
University of Arizona, Tucson, AZ., Jan. 1983, pp. 125-132.
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2. McDowell, D. L., Payne, R. K., Stahl, D., and Antolovich, S.D., "Effects of
Nonproportional Cyclic Loading Histories on Type 304 Stainless Steel,"
Proceedings of the International Spring Meeting of Societe Francaise de
Metallurgie, Paris, May 1984, pp. 53-86.
3. McDowell, D. L., "Some Comments on the Structure of Nonlinear Constitutive
Equations for Nonproportional Cyclic Plasticity," Proc. the Symposium in Honor
of the Retirement of Professor JoDean Morrow of the University of Illinois,
August 1984.
4. McDowell, D. L., "The Significance of Nonproportional Loading Tests for
Characterization of Cyclic Response of Metals," Proc. 1985 Spring Conference on
Experimental Mechanics, Society for Experimental Stress Analysis, Las Vegas,
June 10, 1985, pp. 229-236.
5. McDowell, D.L., Moosbrugger, J., Doumi, M., and Jordan, E.H., "Some
Implications for Cyclic Plastic and Viscoplastic Equations Based on
Nonproportional Loading Experiments," Proc. 3rd Symposium on Nonlinear
Constitutive Relations for High-Temperature Applications, NASA Lewis RC,
University of Akron, Ohio, June 11-13, 1986.
6. McDowell, D.L. and Moyar, G.J., "A More Realistic Model of Nonlinear Material
Response: Application to Elastic-Plastic Rolling Contact," Proc. 2nd Int. Symp.
on Contact Mechanics and Wear of Rail/Wheel Systems, University of Rhode
Island, Kingston, July 8-11, 1986.
7. McDowell, D.L. and Moosbrugger, J.C., "Bounding Surface Interpretation of
Rate-Dependent Metallic Behavior under Nonxproportional Loading," Proc. Int.
Seminar on the Inelastic Behaviour of Solids: Models and Utilisation, Besancon,
France, Aug. 30-Sept. 1, 1988.
8. McDowell, D.L. and Lamar, A.B., "Modeling Ratchetting and Anisotropic
Deformation with Hardening Dynamic Recovery Format Models," Plasticity '89,
Mie University, Tsu, Japan, July 31-Aug. 4, 1989.
9. McDowell, D.L. and Moosbrugger, J.C., "Application of Continuum Slip
Approaches to Viscoplasticity," 19th Canadian Fracture Conference, Ottawa,
Ontario, Canada, May 1989; appeared in Consitutive Laws of Plastic Deformation
and Fracture, A.S. Krausz et al. eds., Kluwer Academic Publishers, 1990, pp. 295-
303.
10. McDowell, D.L., "Thermoplastic and Thermoviscoplastic Forms of Bounding
Surface Theories," 3rd Int. Conf. on Constitutive Laws for Engng. Matls., Tucson,
AZ, Jan. 7-11, 1991.
11. McDowell, D.L., Miller, M.P. and D.J. Bammann, "Some Additional
Considerations for Coupling of Material and Geometric Nonlinearities for
Polycrystalline Metals," MECAMAT '91, Proc. of the Int. Seminar on Large
Plastic Deformations, Fontainebleau, France, August 7-9, 1991 (communicated by
Dr. D.J. Bammann).
12. McDowell, D.L., "Bounding Surface Thermoplasticity and
Thermoviscoplasticity," Plasticity '91, Grenoble, France, August 12-16, 1991
(communicated by Dr. D.J. Bammann).
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13. Bertoncelli, C., Bourgain, E., McDowell, D.L., Bair, S.S. and Marin, E.P.,
"Calculs predictifs de l'apparition de defauts lors d'operations de forgeage a froid:
rassemblement de donees experimentales," SF2M, Societe Francaise de
Metallurgie et de Materiaux, Journees d'Automne, Paris, October 27-29, 1992.
14. McDowell, D.L., "Description of Nonproportional Cyclic Ratchetting Behavior,"
Proc. MECAMAT '92, Int. Seminar on Multiaxial Plasticity, Cachan, France, 1-4
September, 1992.
15. McDowell, D.L., Marin, E., Lee, Y.K. and Miller, M.P., "Considerations for a
`Complete` Theory of Multiaxial Inelasticity for Ductile Metals," Proc.
MECAMAT '92, Int. Seminar on Multiaxial Plasticity, Cachan, France, 1-4
September, 1992.
16. McDowell, D.L., Marin, E., Lee, Y.K. and Bertoncelli, C., "Experimental and
Analytical Void Growth Studies," Proc. Asia-Pacific Symp. on Advances in
Engineering Plasticity and its Application, Hong Kong Polytechnic, Hong Kong,
15-17 December, 1992.
17. Miller, M.P., McDowell, D.L., Lee, Y.K. and Bammann, D.J., "Anisotropy and
Path Dependence in Finite Deformation Shear and Sequential
Compression/Shear," Proc. Asia-Pacific Symp. on Advances in Engineering
Plasticity and its Application, Hong Kong Polytechnic, Hong Kong, 15-17
December, 1992.
18. Miller, M.P., McDowell, D.L., and Bammann, D.J., "Finite Strain Sequence
Effects for 304L Stainless Steel," Proc. Fourth Int. Symp. on Plasticity and its
Current Applications, Baltimore, July 23-24, 1993.
19. Miller, M.P., McDowell, D.L., and Bammann, D.J., "Modelling Substructural and
Textural Anisotropy at Finite Strain," Proc. U.S. Army Symp. on Solid
Mechanics, Plymouth, MA, Aug. 17-19, 1993.
20. Lim, J. and McDowell, D.L., "Degradation of an Ni-Ti Alloy During Cyclic
Loading," Proc. 1994 North American Conference on Smart Structures and
Alloys, Orlando, Feb. 13-17, 1994.
21. Miller, M.P. and McDowell, D.L., "Stress-State Dependent Deformation
Behaviour of FCC Polycrystals," Proc. 15th Ris0 International Symp. on
Materials Science, Numerical Predictions of Deformation Processes and the
Behaviour of Real Materials, eds. S.I. Andersen et al., Ris0 National Laboratory,
Roskilde, Denmark, Sept. 5-9, 1994, pp. 421-426.
22. Melander, A, Gustavsson, A. and McDowell, D.L., "FEM Simulation of Sheet
Metal Forming Followed by Fatigue Loading," Proc. 15th Ris0 International
Symp. on Materials Science, Numerical Predictions of Deformation Processes and
the Behaviour of Real Materials, eds. S.I. Andersen et al., Ris0 National
Laboratory, Roskilde, Denmark, Sept. 5-9, 1994, pp. 413-420.
23. McDowell, D.L. and Poindexter, V., "Multiaxial Fatigue Modelling Based on
Microcrack Propagation: Stress State and Amplitude Effects," Proc. 4th Int. Conf.
on Biaxial/Multiaxial Fatigue, Paris, France, May 31-June 3, 1994, pp. 115-130.
24. McDowell, D.L., "Cumulative Surface Displacement in Rolling Line Contact,"
36th Mechanical Working and Steel Processing Conference, Iron & Steel Society,
Baltimore, Oct. 16-19, 1994.
-35-
25. McDowell, D.L., "Multiaxial Effects in Metallic Materials," Symposium on
Durability and Damage Tolerance, ASME AD-Vol. 43, ASME Winter Annual
Meeting, Chicago, IL, Nov. 6-11, 1994, pp. 213-267.
26. McDowell, D.L., "Multiaxial Fatigue Modelling Based on Microcrack
Propagation," Symposium on Material Durability/Life Prediction Modeling,
ASME PVP-Vol. 290, ASME Winter Annual Meeting, Chicago, IL, Nov. 6-11,
1994, pp. 69-83.
27. Hall, D.E., McDowell, D.L. and Saxena, A., "Numerical Analysis of Crack
Growth in Creep-Brittle Aluminum Alloy 8009," 1995 NSF Design,
Manufacturing and Industrial Innovation Grantees Meeting, Institute for
Mechanics and Materials, La Jolla, CA, January 4-6, 1995.
28. Poindexter-Bennett, V. and McDowell, D.L., "A Microcrack Growth Law for
Multiaxial Fatigue of Metals," NSBE Trans. on Emerging Technologies '95,
Detroit, MI, March 22-26, 1995.
29. Hall, D.E., McDowell, D.L. and Saxena, A., "Some Aspects of Crack Growth in
Creep-Brittle Materials," ICES '95, Hawaii, July 30-Aug. 3, 1995.
30. Mazataud, P. and McDowell, D.L., "Effect of Aspect Ratio and Strain Hardening
on Void Growth: Proportional Loading at Low to Moderate Triaxiality," ICES
'95, Hawaii, July 30-Aug. 3, 1995.
31. Horstemeyer, M.F., McDowell, D.L. and Bammann, D.J., "Torsional Softening
and the Forming Limit Diagram," SAE Tech. Ser. 960599, ed. K. Chen, Analysis
of Autobody Stamping Technology, 1995.
32. Horstemeyer, M.F. and McDowell, D.L., "Double Slip Polycrystal Plasticity and
Complex Loading of OFHC Copper," Proc. 10th Conf. of Engng. Mech., Boulder,
CO, ASCE, ed. S. Sture, Vol. 2, 1995, pp. 1026-1029.
33. Le Gall, C., Qu, J. and McDowell, D.L., "Delamination Cracking in Encapsulated
Flip Chips," Proc. 46th Electronic Components and Technology Conference,
IEEE (IEEE Catalog No. 96CH35931), Piscataway, NJ, 1996, pp. 430-434.
34. Fu, C., McDowell, D.L. and Ume, C., "Time Integration Procedures for a Cyclic
Thermoviscoplasticity Model for Pb-Sn Solder Applications," Proc. 46th
Electronic Components and Technology Conference, IEEE (IEEE Catalog No.
96CH35931), Piscataway, NJ, 1996, pp. 403-413.
35. Fu, C., Ume, I.C., and McDowell, D.L., “Thermomechanical Stress Analysis of
Plated-Through Holes in PWB using Internal State Variable Constitutive
Models,” in Sensing, Modeling and Simulation in Emerging Electronic
Packaging, ASME EEP, Vol. 17, 1996, pp. 65-72.
36. LeGall, C.A., McDowell, D.L. and Qu, J., “Delamination Cracking in
Encapsulated Flip Chips,” Proc. 46th ECTC, 1996, pp. 430-443.
37. Butler, G.C., McGinty, R., Tanner, A. and McDowell, D.L., "Deformation and
Temperature History Effects: Experiments and Modeling," Proc. 14th U.S. Army
Symp. on Solid Mechanics, Battelle Press, Eds. K.R. Iyer and S.-c. Chou, Myrtle
Beach, SC, Oct. 16-18, 1996, pp. 391-400.
38. Graham, S., Lustig, S.K., McDowell, D.L. and Hughes, D.A., "Deformation
Induced Anisotropy in Polycrystalline FCC Metals," Proc. Plasticity '97: 6th Int.
Symp. on Plasticity and its Current Applications, Physics and Mechanics of Finite
-36-
Plastic and Viscoplastic Deformation, Ed. A.S. Khan, Juneau, Alaska, 14-18 July,
1997, pp. 29-30.
39. Tanner, A.B., McGinty, R.D. and McDowell, D.L., "Deformation, Temperature
and Strain Rate History Effects Based on Sequence Experiments,” Proc. Plasticity
'97: 6th Int. Symp. on Plasticity and its Current Applications, Physics and
Mechanics of Finite Plastic and Viscoplastic Deformation, Ed. A.S. Khan, Juneau,
Alaska, 14-18 July, 1997, pp. 93-94.
40. McDowell, D.L., "Multiple Scales and Averaging Concepts for ISV Theories,"
Proc. Plasticity '97: 6th Int. Symp. on Plasticity and its Current Applications,
Physics and Mechanics of Finite Plastic and Viscoplastic Deformation, Ed. A.S.
Khan, Juneau, Alaska, 14-18 July, 1997, pp. 67-68.
41. McDowell, D.L. and Bennett, V., “Micromechanical Aspects of Small Multiaxial
Fatigue Cracks,” Proc. 5th Int. Conf. On Biaxial/Multiaxial Fatigue & Fracture,
Cracow, Poland, 8-12 Sept., 1997, pp. 325-348.
42. LeGall, C.A., Qu, J. and McDowell, D.L., “Some Mechanics Issues Related to the
Thermomechanical Reliability of Flip Chip DCA with Underfill Encapsulation,”
ASME, EEP-Vol. 222, 1997, pp. 85-95.
43. McDowell, D.L. and T. Jesse Lim, “Nonproportional Cyclic Behavior of a Ni-Ti
Shape Memory Alloy,” Proc. 1998 NSF Design & Manuf. Grantees Conf.,
Monterrey, Mexico, Jan. 5-8, 1998.
44. LeGall, C.A., Qu, J. and McDowell, D.L., “Thermomechanical Stresses in an
Underfilled Flip Chip DCA,” Proc. Int. Symp. Exhib. Advanced Packaging
Material Processing, Properties and Interfaces, IEEE (catalog No. 97TH8263),
Piscataway, NJ, 1997, pp. 128-129.
45. Graham, S., McDowell, D.L., and Dinwiddie, R.B., “In-Plane Thermal Diffusivity
Measurements of Orthotropic Materials,” Proc. 24th Int. Thermal Conductivity
Conference, Pittsburgh, PA, Oct. 26-29, 1997.
46. Butler, G.C., Guvenilir, A, McDowell, D.L. and Stock, S.R., “Quantification of
Grain Subdivision Accompanying Large Deformations of Copper,” Mat. Res.
Soc. Symp. Proc. Vol. 524, April 1998, pp. 43-48.
47. McDowell, D.L, Neu, R.W., Qu, J. and Saxena, A., “Prognostic Tools for Small
Cracks in Structures,” Emerging Technologies for Machinery Health Monitoring
and Prognosis, TRIB-Vol. 7, R. Cowan, Ed., ASME, 1997, pp. 1-12.
48. LeGall, C.A., Qu, J. and McDowell, D.L., “Influence of the Die Size on the
Magnitude of Thermomechanical Stresses in Flip Chips Directly Attached to
Printed Wiring Board,” Advances in Electronic Packaging, EEP-Vol. 19-2, 1997,
pp. 1663-1670.
49. Morrissey, R., McDowell, D.L. and Nicholas, T., “The Effects of Mean Stress in
HCF of Ti-6Al-4V,” 2nd Int. Conf. On the Mechanics of Time Dependent
Materials, Pasadena, CA, 1-4 March, 1998.
50. McGinty, R.D. and McDowell, D.L., “Variable Resolution Mesoscale Polycrystal
Plasticity,” Proc. ICES ‘98, Modeling and Simulation Based Engineering, Atlanta,
Georgia, October 6-9, 1998, pp.1438-1443.
-37-
51. Fan, J., McDowell, D.L. and Horstemeyer, M.F., “Micromechanics of Fatigue in
Cast Al Alloys,” Proc. 1st International Aluminum Casting Technology ‘98,
Chicago, Illinois, Oct. 6-9, 1998.
52. Lim, T.-J. and McDowell, D.L., “Multiaxial Cyclic Behavior of an Ni-Ti Shape
Memory Alloy,” Proc. Plasticity ‘99: The 7th Int. Symp. On Plasticity and Its
Current Applications, Cancun, Mexico, Jan. 5-13, 1999, pp. 169-172.
53. McGinty, R.D. and McDowell, D.L., “Variable Resolution Polycrystal Plasticity:
Assignment of Shearing Rates,” Proc. Plasticity ‘99: The 7th Int. Symp. On
Plasticity and Its Current Applications, Cancun, Mexico, Jan. 5-13, 1999, pp. 823-
826.
54. Fu, C.-Y., McDowell, D.L., and Ume, C.I., “Application of ISV Models to
Thermomechanical Wave Soldering Processes,” Proc. Plasticity ‘99: The 7th Int.
Symp. On Plasticity and Its Current Applications, Cancun, Mexico, Jan. 5-13,
1999, pp. 337-340.
55. McGinty, R.D. and McDowell, D.L., “Mesoscale Polycrystal Plasticity,” Proc.
15th U.S. Army Symp. on Solid Mechanics, Myrtle Beach, SC, April 12-14,
1999, pp. 249-266.
56. McDowell, D.L., “Non-Associative Aspects of Multiscale Evolutionary
Phenomena,” Proc. 4th International Conference on Constitutive Laws for
Engineering Materials, eds. R.C. Picu and E. Krempl, 1999, pp. 54-57 (Keynote
lecture).
57. Goh, C.-H., Wallace, J.M., Neu, R.W. and McDowell, D.L., “Computational
Crystal Plasticity Applied to Attachment Fatigue Problems,” Proc. 5th National
Turbine Engine High Cycle Fatigue (HCF) Conference, March 7-9, 2000,
Chandler, AZ.
58. Graham, S. and McDowell, D.L., “The Effect of Random Fiber Distribution on
the Transverse Thermal Conductivity of Composites with Imperfect Interfaces,”
Proc. SECTAM XX, H. Tippur, Ed., April 16-18, 2000.
59. Butler, G.C., Stock, S.R., McGinty, R.D. and McDowell, D.L., “X-Ray
Microbeam Diffraction Studies of Large Strain Dislocation Substructure
Formation in OFHC Copper,” Proc. AEPA 2000, Advances in Engineering
Plasticity, Hong Kong, June 12-16, 2000, Trans Tech Publ., Ltd, Switzerland, pp.
165-170.
60. Cochran, J., Lee, K.J., McDowell, D., Sanders, T, Church, B., Clark, J., Dempsey,
B., Hayes, A., Hurysz, K, McCoy, T., Nadler, J., Oh, R., Seay, W., and Shapiro,
B., “Low Density Monolithic Metal Honeycombs by Thermal Chemical
Processing,” Fourth Conference on Aerospace Materials, Processes and
Environmental Technology, September 18-20, 2000, Huntsville, Alabama.
61. McGinty, R.D. and McDowell, D.L., “Multiscale Modeling Concepts for Finite
Deformation of Polycrystalline Metals,” in Continuous Damage and Fracture,
Elsevier, Cachan, France, October 23-27, 2000, pp. 29-39.
62. Gall, K.A., Horsemeyer, M.F., McDowell, D.L, Fan, J. and Yang, N., “Multi-
scale Fatigue of As-Cast Lightweight Structural Metals,” Proc. ICF 10,
ICF100140OR, Honolulu, HI, Dec. 3-7, 2001.
-38-
63. Hayes, A.M., Dempsey, B.M., Wang, A. and McDowell, D.L, “Mechanics of
Linear Cellular Alloys,” Symposium on Mechanics of Cellular Materials, ASME
IMECE, New York, NY, Nov. 15, 2001.
64. Gordon, A.P. and McDowell, D.L., “Crack Plane Influence on Time-Dependent
Fracture of Bimaterials,” Proc. ICF 10, ICF100666OR, Honolulu, Hawaii, Dec. 3-
7, 2001.
65. Clayton, J.D. and McDowell, D.L., “A Multiscale Multiplicative Decomposition
for Elastoplasticity of Polycrystals,” Proc. Plasticity '02, The 9th Int. Symp. on
Plasticity and its Current Applications, Plasticity, Damage and Fracture at Macro,
Micro and Nano Scales, eds. A.S. Khan and O. Lopez-Pamies, NEAT Press,
2002, pp. 696-698.
66. Goh, C.-H., Neu, R.W., and McDowell, D.L., “Crystallographic Plasticity in
Fretting of Ti-6Al-4V,” Proc. Plasticity '02, The 9th Int. Symp. on Plasticity and
its Current Applications, Plasticity, Damage and Fracture at Macro, Micro and
Nano Scales, eds. A.S. Khan and O. Lopez-Pamies, NEAT Press, 2002, pp. 495-
497.
67. McDowell, D.L., Saxena, A., Mistree, F. and Allen, J.K., “Considerations for
Systems-Based Design of Materials,” Proc. Plasticity '02, The 9th Int. Symp. on
Plasticity and its Current Applications, Plasticity, Damage and Fracture at Macro,
Micro and Nano Scales, eds. A.S. Khan and O. Lopez-Pamies, NEAT Press,
2002, pp. 36-38.
68. Morrissey, R.M., McDowell, D.L. and Nicholas, T. “Plastic Strain Accumulation
in HCF of Ti-6Al-4V,’ Proc. Plasticity '02, The 9th Int. Symp. on Plasticity and
its Current Applications, Plasticity, Damage and Fracture at Macro, Micro and
Nano Scales, eds. A.S. Khan and O. Lopez-Pamies, NEAT Press, 2002, pp. 513-
515.
69. Hayes, A., McDowell, D.L. and Cochran, J.K., “Properties of Maraging Steel
Honeycomb Under Compressive Quasistatic and Dynamic Loading,” Proc. TMS
2002 Annual Meeting, Seattle, WA, Feb. 2001.
70. Clayton, J.D. and McDowell, D.L., "A Multiscale Model for Deformation and
Failure of Polycrystals", 4th Mesomechanics 2002, ed. R. Pyrz, Aalborg
University, Aalborg, Denmark, August 26-30, 2002.
71. Shenoy, M., Kang, M.-S., Neu, R.W., and McDowell, D.L., "Cyclic Deformation
of a DS Ni-base Superalloy at 871°C," Proc. CAMP2002: High-Temperature
Fatigue, G. Biallas, H.J. Maier, O. Hahn, K. Herrmann, and F. Vollertsen, Eds.,
Bad Lippspringe, Germany, 3-4 April 2002, pp. 14-28.
72. Goh, C.-H., Swalla, D.R., Neu, R.W. and McDowell, D.L., “Role of
Heterogeneity of Material in the Nucleation of Fretting Fatigue Cracks,” 7th
National Turbine Engine High Cycle Fatigue (HCF) Conference, Palm Beach
Gardens, FL, May 14-17, 2002.
73. McDowell, D.L., “Computational Modeling to Support Materials Design,” Proc.
Workshop on Multiscale Modeling, Simulation and Visualization, NASA Langley
Research Center, Hampton, VA, March 5, 2002.
74. Seepersad, C. C., B. M. Dempsey, J. K. Allen, F. Mistree and D. L. McDowell,
2002, "Design of Multifunctional Honeycomb Materials," 9th AIAA/ISSMO
-39-
Symposium on Multidisciplinary Analysis and Optimization, Atlanta, GA. Paper
Number: AIAA-2002-5626.
75. Kumar, R. and McDowell, D.L., “Design of Multifunctional Materials,” 9th
AIAA/ISSMO Symposium on Multidisciplinary Analysis and Optimization,
Mini-Symposium on Simulation-Based Design of Materials for Affordability,
Atlanta, Georgia, Sept. 5-6, 2002.
76. Mistree, F., C. C. Seepersad, B. M. Dempsey, D. L. McDowell and J. K. Allen,
2002, "Robust Concept Exploration Methods in Materials Design," 9th
AIAA/ISSMO Symposium on Multidisciplinary Analysis and Optimization,
Atlanta, GA. Paper Number: AIAA-2002-5568.
77. Spearot, D., Jacob, K. and McDowell, D.L., “MD Simulation of Grain Boundary
Fracture in Copper and Connections to Interface Separation Potentials,” AIAA
Paper 2003-1613, 44th AIAA/ASME/ASCE/AHS/ASC Structures, Structural
Dynamics and Materials Conference, Norfolk, VA, April 7-10, 2003.
78. Swalla, D.R., Neu, R.W., and McDowell, D.L., "Microstructural Characterization
of Ti-6Al-4V with Fretting Damage," Proc. 8th National Turbine Engine High
Cycle Fatigue (HCF) Conference, April 13-15, 2003, Monterey, CA.
79. Clayton, J.D., McDowell, D.L. and Bammann, D.J., “Modeling Dislocations and
Disclinations with Finite Micropolar Elastoplasticity,” Proc. Plasticity 2003,
Dislocations, Plasticity and Metal Forming, Eds. A.S. Khan, R. Kazmi and J.
Zhou, NEAT Press, Quebec City, Canada, July 7-12, 2003, pp. 472-474.
80. McDowell, D.L. and Wang, A., “Plasticity of Prismatic Cellular Materials,” Proc.
Plasticity 2003, Dislocations, Plasticity and Metal Forming, Eds. A.S. Khan, R.
Kazmi and J. Zhou, NEAT Press, Quebec City, Canada, July 7-12, 2003, pp. 576-
578.
81. Gordon, A. P., and McDowell, D. L., "Mixed Mode Loading of an Interface
Crack Subjected to Creep Conditions," 7th International Symposium on Emerging
Technology in Fluids, Structures, and Fluid-Structure Interactions, Cleveland,
Ohio, July 20 - 25, 2003. ASME PVP Technical Volume, FSI-2, July, 2003, pp.
145-154.
82. Spearot, D.E., McDowell, D.L. and Jacob, K.I., “Separation Constitutive Laws for
Interfaces Informed by Nanoscale Simulations,” 5th European Solid Mechanics
Conference, Thessaloniki, Greece, August 17-22, 2003.
83. Spearot, D.E., Jacob, K.I. and McDowell, D.L., “Molecular Dynamics
Simulations of Grain Boundary Decohesion in FCC Copper and Aluminum,” 45th
American Institute of Aeronautics and Astronautics Conference, NASA Langley
Research Center, April 20th, 2004.
84. Kumar, R.S., Wang, A.-J., Seepersad, C. Dempsey, McDowell, D.L., Mistree, F.,
and Allen, J.K., “Issues in Design of Multifunctional Materials,” Keynote
Address by DLM, International Conference on Heterogeneous Material
Mechanics, Chongqing, China, June 21-26, 2004.
85. Wang, A.-J. and McDowell, D.L., “Mechanical Behavior of Prismatic Cellular
Materials,” Keynote Address by DLM, International Conference on
Heterogeneous Material Mechanics, Chongqing, China, June 21-26, 2004.
-40-
86. Seepersad, C.-C., M. G. Fernandez, J. H. Panchal, H.-J. Choi, J. K. Allen, D. L.
McDowell and F. Mistree, "Foundations for a Systems-Based Approach for
Materials Design," 10th AIAA/ISSMO Multidisciplinary Analysis and
Optimization Conference, v 1, Collection of Technical Papers - 10th
AIAA/ISSMO Multidisciplinary Analysis and Optimization Conference, 2004,
AIAA 2004-4300, 2004, pp. 1-20.
87. Choi, H.-J., R. Austin, J. Shepherd, J. K. Allen, D. L. McDowell, F. Mistree and
D. J. Benson, "An Approach for Robust Micro-Scale Materials Design under
Unparameterizable Variability," 10th AIAA/ISSMO Multidisciplinary Analysis
and Optimization Conference, v 1, Collection of Technical Papers - 10th
AIAA/ISSMO Multidisciplinary Analysis and Optimization Conference, 2004,
AIAA 2004-4331, 2004, pp. 367-383.
88. Mayeur, J.R., Neu, R.W. and McDowell, D.L., “Fretting Fatigue of Ti-6Al-4V: A
Micromechanical Approach,” Fall TMS meeting, New Orleans, LA, September
28, 2004.
89. Gordon, A.P., Shenoy, M.M., and McDowell, D.L., “Simulation of Creep Crack
Growth of a Directionally-Solidified Ni-Base Superalloy,” Symposium on High
Temperature Creep Fracture of Interfaces, 11th International Conference on
Fracture, Turin, Italy, March 20-25, 2005.
90. Spearot, D.E., Jacob, K.I., and McDowell, D.L., “Fracture of CSL Boundaries in
Cu and Al,” 11th International Conference on Fracture, Turin, Italy, March 20-25,
2005.
91. Kumar, R.S., Shenoy, M.M., and McDowell, D.L., “Simulating Microstructure-
Related LCF Variability in Ni-Base Superalloys,” Symposium on Fatigue
Mechanisms and Modeling, 11th International Conference on Fracture, Turin,
Italy, March 20-25, 2005.
92. Choi, H.-J., Allen, J.K, Rosen, D., McDowell, D.L., and Mistree, F., “An
Inductive Design Exploration Method for the Integrated Design of Multi-scale
Materials and Products,” Proceedings of the ASME International Design
Engineering Technical Conferences and Computers and Information in
Engineering Conference - DETC2005, v 2 B, Proceedings of the ASME
International Design Engineering Technical Conferences and Computers and
Information in Engineering Conferences - DETC2005: 31st Design Automation
Conference, 2005, p 859-870.
93. Panchal, J.H., Choi, H.-J., Allen, J.K., McDowell, D.L., and Mistree, F, “Robust
Multiscale Simulation-Based Design of Multifunctional Materials,” International
Conference on Advanced Materials Design & Development, Goa, India,
December 14-16, 2005.
94. Seepersad, C. C., Allen, J.K., McDowell, D.L. and Mistree, F., “Why Do We
Need Multiobjective Methods in Materials Design? Insights from the Design of
Multifunctional Cellular Materials,” International Conference on Advanced
Materials Design & Development, Goa, India, December 14-16, 2005.
95. Xue, Y., El Kadiri, H., Horstemeyer, M.F., Fan, J. and McDowell, D.L.,
”Mechanistic Multistage Fatigue Modeling of Cast AE44 Magnesium Alloys,”
TMS Annual Meeting, San Antonio, TX, March 13-16, 2006.
-41-
96. McDowell, D.L., “Simulation-Based Strategies for Microstructure-Sensitive
Fatigue Modeling,” TMS Annual Meeting, Art McEvily Symposium, San
Antonio, TX, March 13-16, 2006.
97. Xue, Y., Burton, CL, Horstemeyer, MF, McDowell, DL, “Multistage Fatigue
Modeling of Cast A356-T6 and A380-F Aluminum Alloys,” Simulation of
Aluminum Shape Casting Processing, Edited by Q.G. Wang, M.J.M. Krane and
P.D. Lee, TMS Annual Meeting, San Antonio, TX, March 13-16, 2006, pp. 281-
288.
98. Xue, Y., El Kadiri, H., Horstemeyer, M.F., McDowell, D.L., “Fatigue and
Fracture Mechanism of Cast AE44 Magnesium Alloys,” Proc. 2006 SEM Annual
Conference and Exposition on Experimental and Applied Mechanics, V. 4, 2006,
pp. 2191-2198.
99. Zhang, M., Zhang, J, McDowell, D.L., and Neu, R.W., “Investigation of Complex
Polycrystalline Grain Structures on Fretting Contact Using 3D Voronoi
Tesselation Model,” Fatigue 2006, Atlanta, GA, May 15-19, 2006.
100. Mayeur, J., McDowell, D.L. and Neu, R.W., “Role of Microstructure in Fretting
Fatigue of Ti-6Al-4V,” Fatigue 2006, Atlanta, GA, May 15-19, 2006.
101. Gall, K., McDowell, D.L., Maier, H.J., Biallas, G., and Horstemeyer, M.F., “In-
situ Observations of Fatigue Crack Growth in Cast Mg Cycled in an
Environmental SEM,” Fatigue 2006, Atlanta, GA, May 15-19, 2006.
102. Gordon, A.P., Neu, R.W. and McDowell, D.L., “Fatigue-Creep-Environment
Interactions in a Directionally-Solidified Ni-Base Superalloy,” 16th European
Conference of Fracture Failure Analysis of Nano and Engineering Materials and
Structures, Alexandroupolis, Greece, July 3-7, 2006.
103. Tschopp, M.A., and McDowell, D.L., “Microrotation-Augmented Energy
Minimization for 3D Nanocrystalline Cu Nanostructures,” 16th European
Conference of Fracture Failure Analysis of Nano and Engineering Materials and
Structures, Alexandroupolis, Greece, July 3-7, 2006.
104. McDowell, D.L., “Plasticity-Related Microstructure-Property Relations for
Materials Design”, Invited Plenary Lecture, The 8th Asia-Pasific Symposium on
Engineering Plasticity and Its Applications, Nagoya, Japan, September 25-29,
2006.
105. Panchal, J.H., Choi, H.-J., Allen, J.K., McDowell, D.L., and Mistree, F.,
“Designing design processes for integrated materials and products realization: A
multifunctional energetic structural material example,” Proceedings of 2006
ASME International Design Engineering Technical Conferences and Computers
and Information In Engineering Conference, DETC2006, 2006, 14p.
106. Tschopp, M.A., Tucker, G.J. and McDowell, D.L., “Atomistic Modeling of Grain
Boundary Structure,” TMS MS&T 2006, Cincinnati, OH, Oct. 14-18, 2006. 107. Liu, Z.-K. and McDowell, D.L., “Center for Computational Materials Design
(CCMD) and Its Education Vision,” TMS MS&T 2006, Cincinnati, OH, Oct. 14-
18, 2006.
108. Tschopp, M.A., Tucker, G.J., and McDowell, D.L., “Atomistic simulations of free
volume in <100> and <110> symmetric tilt grain boundaries in Cu and Al,”
-42-
Symp. on Plasticity from the Atomic Scale to Constitutive Laws, TMS Annual
Meeting & Exhibition, Orlando, FL, Feb. 25-March 1, 2007.
109. McDowell, D.L., Mistree, F., and Allen, J.K., “Prospects and Challenges for
Materials Design,” Mechanics and Materials Modeling and Materials Design
Methodologies, Symp. in Honor of Dr. Craig Hartley’s 40 years of Contributions
to the Field of Mechanics and Materials Science, TMS Annual Meeting &
Exhibition, Orlando, FL, Feb. 25-March 1, 2007.
110. Tschopp, M.A. and McDowell, D.L., “Structures, energies and dislocation
nucleation behaviors of 3 asymmetric tilt grain boundaries in Cu,” Symp. on
Plasticity from the Atomic Scale to Constitutive Laws, TMS Annual Meeting &
Exhibition, Orlando, FL, Feb. 25-March 1, 2007.
111. Zhang, M., McDowell, D.L., and Neu, R.W., “Sensitivity of Microstructural
Parameters in Fretting Fatigue Based on Computational Crystal Plasticity,” Proc.
5th Int. Symp. on Fretting Fatigue, Montreal, April 21-23, 2007.
112. Tschopp, M.A. and McDowell, D.L., “Atomistic simulations of grain boundary
dislocation nucleation,” International Conference on Heterogeneous Material
Mechanics, Huangshan, China, June 3-8, 2008.
113. McDowell, D.L., “Designing the Next Materials Revolution,” feature article in
Industryweek, J. Teresko, Nov. 1, 2008.
114. McDowell, D.L. and Zhu, T., “Multiscale Modeling of 3D Dislocation Nucleation
and Migration,” NSF CMMI Research and Innovation Conference, June 22-25,
2009, Honolulu, HI. 115. Tucker, G.J., McDowell, D.L., and Zimmerman, J.A., “Atomic-Scale
Deformation Kinematics for Bicrystal Grain Boundaries under Shear Loading,”
12th Int. Conf. on Fracture, Ottawa, Canada, July 12-17, 2009. 116. Tschopp, M.A. and McDowell, D.L., “Atomistic Simulations of Dislocation
Nucleation,” 12th Int. Conf. on Fracture, Ottawa, Canada, July 12-17, 2009. 117. Przybyla, C.P. and McDowell, D.L., “Microstructure-Sensitive Extreme Value
Probabilities of Fatigue in Advanced Engineering Alloys,” Poster at Gordon
Research Conference, Integrating Computational Materials Science and
Engineering, Proctor Academy, Andover, NH, August 2-7, 2009.
118. Owolabi, G.M. and McDowell, D.L., “A Microstructure-Sensitive Fatigue Notch
Factor,” Proc. 2009 ASME IMECE (ASME IMECE 2009-10860), Lake Buena
Vista, FL, Nov. 13-19, 2009.
119. Sinha, A., Chakraborty, M., Ghosh, S., Kumar, C.S., Panchal, J.H., Allen, J.K.,
McDowell, D.L., and Mistree, F., “Microtructure-Mediated Integration of
Material and Product Design – Undersea Submersible,” Proc. ASME Int. Design
Eng. Tech. Conf. and Computers and Information in Eng. Conf., Vol. 5, Pts. A
and B, 35th Design Automotion Conference, 2010, pp. 467-478.
120. McDowell, D.L. and Zhu, T., “Multiscale Coarse-Grained Modeling of 3D
Dislocation Nucleation and Migration,” NSF CMMI Research and Innovation
Conference, January 3-7, 2011, Atlanta, GA. 121. McDowell, D.L., “Methods for Atomistic Input into Initial Yield and Plastic Flow
Criteria for Nanocrystalline Materials,” NSF CMMI Research and Innovation
Conference, January 3-7, 2011, Atlanta, GA.
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122. Musinski, W. and McDowell, D.L., “Microstructure-Sensitive Probabilistic
Fatigue Modeling of Notched Components,” Proc. 5th International Conference on
Very High Cycle Fatigue, Ed. C. Berger and H.-J. Christ, Berlin, Germany, June
28-30, 2011, pp. 231-236. 123. Musinski, W. and McDowell, D.L., “Microstructure-Sensitive Probabilistic
Fatigue Modeling of Notched Components,” TMS Annual Meeting, Vol. 2, 2011,
pp. 683-690. 124. Ellis, B., McDowell, D.L., and Zhou, M., “Energy Dissipation in Ultra-High-
Performance Fiber-Reinforced Concrete (UHPFRC) Subjected to Rapid
Loading,” AIP Conference Proceedings, Vol. 1426, 2012, pp. 1061-1064. 125. Prasannavenkatesan, R., Jou, H.-J., and McDowell, D.L., “Three-Dimensional
Modeling of Fatigue in Hierarchical Martensitic Steel Microstructures,”
Proceedings of the Canadian Society for Mechanical Engineering International
Congress 2012, June 4-6, 2012, Winnipeg, Manitoba, Canada.
126. Ho, J., Burrell, R., Li, D., McDowell, D., Rollett, A., and Garmestani, H. "Effect
of Twinning on Texture Evolution of Depleted Uranium using a Viscoplastic
Self-Consistent Model." SAMPE Technical Conference Proceedings: New
Materials and Processes for a New Economy. Charleston, SC, October 22-25,
2012. Society for the Advancement of Material and Process Engineering. CD-
ROM--9 pp.
127. Li, Y., McDowell, D.L. and Zhou, M., “Computational Prediction of Fracture
Toughness of Polycrystalline Metals,” 13th International Conference on Fracture,
June 16-21, 2013, Beijing, China.
128. Wang Y., McDowell D.L., Tallman A.E. “Cross-scale, Cross-domain Model
Validation Based on Generalized Hidden Markov Model and Generalized Interval
Bayes’ Rule,” The 2nd World Congress on Integrated Computational Materials
Engineering (ICME’13), July 7-11, 2013, Salt Lake City.
129. Dong, X., McDowell, D.L., and Jacob, K., “Effect of network structure from
different processing conditions on the mechanical property of semi-crystalline
polymers,” proceedings MRS 2013 fall meeting, Boston, MA. January 2014.
130. Tallman, A.E., Blumer, J.D., Wang, Y., and McDowell, D.L., “Multiscale Model
Validation based on Generalized Interval Bayes' Rule and Its Application in
Molecular Dynamics Simulation,” Proceedings of ASME 2014 International
Design Engineering Technical Conferences & Computers and Information in
Engineering Conference IDETC/CIE 2014 August 17 – 20, 2014, Buffalo, New
York, USA.
131. McDowell, D.L., “Perspective: A Golden Era of Opportunity for Constitutive
Modeling,” ASME Applied Mechanics and Materials Division Joint Committee
on Constitutive Equations newsletter, March 2014, pp. 4-5.
132. Mayeur, J. and McDowell, D.L., “A Study of Two Approaches to Higher-Order
Single Crystal Plasticity,” XXIV ICTAM, August 21-26, 2016, Montreal, Canada.
133. McDowell, D, Valley, M, Rawlings-Goss, R, Medford, A, Raeisinia, B,
and Sawhney, A, High Impact Applications of Data Science in Materials and
Advanced Manufacturing: White Paper published through the South Big Data
Innovation Hub, November 2016 Full Article at:
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https://drive.google.com/file/d/0B3ioZuQ63PKESzlSeXR2SjdJNnc/view?usp=sharing
C2. Software
PyDEM - https://github.com/materialsinnovation/pydem
Inductive materials design exploration python script.
PyCAC - http://www.pycac.org/
Concurrent atomistic-continuum model python wrapper.
C3. Patents
C3.a. Patents Awarded – NONE
C3.b. Provisional Patents, Applications, and Invention Disclosures
Provisional patent application 2088PR “Shape Memory Alloy Foams”, inventors J. Cochran, K.
Lee, T.H. Sanders, D.L. McDowell, and T.-S. Lim. April 15, 1999.
Provisional patent application GTRC ID: 5893 “Variable Pitch Fibers to Reinforce Cementitious
Composites,” inventors Brett D. Ellis, Davd L. McDowell, and Min Zhou. Approved January
27, 2012.
C4. Other Creative Products
D. Presentations
D1. Keynote Addresses and Plenary Lectures
1. McDowell, D.L., “Microstructure-Scale Modeling of High Cycle Fatigue,” ASTM
Annual Fatigue Lecture (Plenary), Miami Beach, FL, Nov. 5, 2002.
2. McDowell, D.L., “Materials Design: A Useful Research Focus for Alloys and
Hierarchical Material Systems,” 2004 Gordon Research Conference on Physical
Metallurgy, Plymouth, New Hampshire, July 25-30, 2004.
3. Spearot, D.E., Tschopp, M.A., and McDowell, D.L., “Grain Boundary Structure
and Dislocation/Disclination Mechanics in Plasticity of FCC Metals,” Keynote
Lecture, Plasticity 2006, Halifax, Nova Scotia, July 17-22, 2006.
4. McDowell, D.L., “A Perspective on Trends in Multiscale Plasticity,” 14th
International Symposium on Plasticity and Its Current Applications, Kona, Hawaii,
Jan. 3-8, 2008 (Plenary Lecture).
5. McDowell, D.L., “Multiscale Modeling in Multilevel Materials Design,” Kickoff
Lecture, Symposium on Computational Materials Design via Multiscale Modeling,
Session on New Approaches Toward Multiscale Materials Design, MRS Fall
Meeting, Boston, MA, Dec. 1, 2008.
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6. McDowell, D.L., “Plasticity at Multiple Scales,” keynote lecture, 4th US-France
Symposium, ICACM-2010, Scale transition for plastic crystalline and
microstructured materials: from experiment to numerical modeling, June 2-4, 2010.
7. Prasannavenkatesan, R. and McDowell, D.L., “Microstructure-Sensitive Modeling
of High Cycle Fatigue in Martensitic Gear Steels,” keynote lecture, Fatigue 2010,
Prague, Czech Republic, June 7-10, 2010.
8. McDowell, D.L. and Garmestani, H., “Multiscale Modeling and Microstructure-
Sensitive Materials Design,” plenary lecture, 47th Sagamore Army Materials
Research Conference on Advanced Lightweight Metals Technology, St. Michaels,
MD, June 14-17, 2010.
9. McDowell, D.L., “Biased Sampling for Statistical Volume Elements for
Evolutionary Structure-Property Relations,” 20th International Workshop on
Computational Mechanics of Materials, Loughborough University, UK, September
8-11, 2010, kickoff plenary speaker.
10. McDowell, D.L., “Critical Path Issues in ICME,” invited presentation, Tools,
Models, Databases and Simulation Tools Developed and Needed to Realize the
Vision of ICME: Panel Discussion on Barriers to ICME and How to Overcome It,
MS&T 2010, Houston, TX, Oct. 20, 2010.
11. McDowell, D.L., “Mesoscopic Simulation in Microstructure-Sensitive VHCF,”
Keynote Lecture, 5th International Conference on Very High Cycle Fatigue, Berlin,
Germany, June 28-30, 2011.
12. McDowell, D.L., “Using Computational Mechanics to Quantify Fatigue of Metals,”
Plenary Lecture, International Workshop on Computational Mechanics of
Materials, IWCMM XXII, Baltimore, MD, September 24-26, 2012.
13. McDowell, D.L., “Bridging Mesoscale Gaps to Enable Design of Materials at
Extremes,” Opening Plenary Lecture, Mach Conference 2014, Annapolis, MD,
April 9-11, 2014.
14. McDowell, D.L. and Garmestani, H., “Structure-property Relations in Materials
Design and Development,” Accelerate 2014, Washington DC, May 22, 2014.
15. McDowell, D.L., Microstructure Sensitive Crystal Plasticity Modeling, PACAM
XV, University of Illinois, Champaign, IL, May 19, 2015 (keynote).
16. McDowell, D.L., “Rectifying Bottom-Up and Top-Down Uncertainties in
Multiscale Modeling: Scientific and Engineering Aspects Relevant to ICME
Multilevel Materials Design and Development,” ICME 3rd World Congress,
Colorado Springs, CO, June 4, 2015 (plenary).
17. McDowell, D.L., “Gaps in Multiscale Modeling of Structure-Property Relations,”
Gordon Research Conference Invited Lecture, Frontiers in Physical Metallurgy,
University of New England, Biddeford, ME, July 19-24, 2015 (plenary).
18. McDowell, D.L., “Blending Experiments and Simulation in Hierarchical Design of
Materials,” 1st International Conference on Computational Design and Simulation
of Materials, Shenyang, China, August 17-19, 2015 (plenary).
19. McDowell, D.L., “Mesoscale Challenges for Multiscale Modeling of Metallics:
Structure-Property Relations,” MS&T 2015, Columbus, OH, October 7, 2015
(keynote).
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20. McDowell, D.L., “Microstructure-Sensitive Modeling of Fatigue Crack Formation
and Early Growth in Metallic Polycrystals,” Fatigue 2015, Senlis, France, Nov. 18-
19, 2015 (opening plenary).
21. McDowell, D.L., “Predictive Multiscale Modeling for Decision Support in Design
of Hierarchical Alloy Systems,” Workshop on Predictive Multiscale Materials
Modeling, Isaac Newton Institute for Mathematical Sciences, Turing Gateway to
Mathematics, Cambridge University, UK, Dec. 1-4, 2015 (keynote lecture).
22. McDowell, D.L., “Comparative Microstructure-Sensitive Computational Fatigue
Assessment,” IUTAM 2017 - Multi-scale Fatigue, Fracture & Damage of Materials
in Harsh Environments, August 29, 2017, Galway, Ireland (Opening Plenary
Lecture).
23. McDowell, D.L., “The Materials Innovation Ecosystem and Materials Data
Science,” Opening Presentation, Materials Research and Data Science Conference,
University of Maryland, September 25, 2017.
24. McDowell, D.L., “Imperatives, Opportunities, and Challenges for Implementing
Integrated Computational Materials Engineering, Plenary Keynote Lecture,
National Australian Symposium on Integrated Computational Materials
Engineering, University of Melbourne, Melbourne, Australia, Feb. 19-20, 2018.
25. Stopka, K., Whelan, G., Gu, T., Muth, A., and McDowell, D.L., “Applications and
Directions of Microstructure-Sensitive Computational Fatigue,” plenary lecture,
Fatigue 2018, 12th International Fatigue Congress, Poitiers Futurescope, France,
May 27-June 1, 2018. See on-line video of lecture at:
https://drive.google.com/file/d/1IGjVH8tbhDtb92RTwW52ZJy1hBU7jxOn/view?u
sp=sharing
D2. Invited Conference and Workshop Presentations
1. McDowell, D.L., "Crack Propagation Technology: Ct Development," EPRI RP2253
Industry Advisory Group Meeting, Barberton, OH, May 6, 1987.
2. McDowell, D.L., Antolovich, S.D. and Oehmke, R.L.T., "Mechanistic
Considerations for TMF Life Prediction of Nickel-Base Superalloys," SMiRT-10
Post-Conference Seminar on Inelastic Analysis, Fracture and Life Prediction,
University of California, Santa Barbara, Aug. 21-22, 1989.
3. McDowell, D.L., "Approaches for Analysis of Time Dependent Behavior of
Solders," Workshop on Fatigue of SMT Solder Joints, ASM Int. 3rd Electronic
Materials & Processing Congress, San Francisco, Aug. 20, 1990.
4. McDowell, D.L., "Representation of Anisotropic Creep Damage," SANDIA
Workshop on Continuum Damage Mechanics, Pleasanton, CA, June 11-13, 1990.
5. McDowell, D.L., "Multiaxial Effects in Metallic Materials," NSF Workshop on
Processing and Modelling of Advanced Engineered Materials, Washington State
University, Pullman, WA, October 11-13, 1993.
6. McDowell, D.L., "Challenges in Modeling Nonproportional Cyclic Material
Behavior," NSF Workshop on the Mechanics and Materials Science of Contact:
Issues and Opportunities," Vanderbilt University, July 18-20, 1994.
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7. Saxena, A. and McDowell, D.L., "Crack Growth in Creep-Brittle Light Alloys at
Elevated Temperature," NSF Workshop on Processing and Constitutive Modelling
of Advanced Engineered Materials II, Lake Lanier Islands, GA, October 24-26,
1994.
8. McDowell, D.L., "Continuum Damage Mechanics (CDM) in Fracture and Fatigue,"
ASTM Spring Meeting, Subcommittee E-08 on Research, Phoenix, Az, Nov. 15,
1994.
9. McDowell, D.L., "Mechanics-Related High Cycle Fatigue Research Issues," invited
presentation, AFOSR Workshop on Basic Research Issues in the Materials and
Mechanics of HCF, Dayton, OH, June 7, 1995.
10. McDowell, D.L., "Mechanics of Small Fatigue Crack Growth in Metals," 1st Int.
Conf. on Fatigue Damage in Structural Materials, Hyannis, MA, Sept. 22-27, 1996.
11. McDowell, D.L., "Modeling Multiscale Phenomena with Internal State Variables,"
ICASE/LaRC 2nd Industry Roundtable, Williamsburg, VA, Oct. 7-9, 1996.
12. McDowell, D.L., Hall, D.E. and Saxena, A., "Using Time-Dependent Fracture
Parameters to Predict Creep Brittle Fracture," Fourth VAMAS meeting, Crack
Growth in Creep Brittle Materials (TWA 19), Georgia Tech, Atlanta, GA, Nov. 21-
22, 1996.
13. McDowell, D.L. "Creep-Fatigue Modeling Based on Inverse Computation," Fourth
VAMAS meeting, Crack Growth in Creep Brittle Materials (TWA 19), Georgia
Tech, Atlanta, GA, Nov. 21-22, 1996.
14. McDowell, D.L, Winer, W.O. and Cowan, R.S., “Developing an Integrated
Diagnostic System,” ASME IMECE Symp. on Quantitative Nondestructive
Evaluation in Integrated Diagnostics, Dallas, TX, November 17, 1997.
15. McDowell, D.L., “Evolving Structure and Internal State Variables,” Nadai Lecture,
moderator S. Nemat-Nasser, ASME IMECE, Dallas, TX, November 20, 1997.
16. McDowell, D.L., “Applications in Crystal Plasticity,” Workshop on Mechanics of
Materials, invited participant, Mathematisches Forschungsinstitut Oberwolfach,
Oberwolfach, Germany, Aug. 23-29, 1998.
17. McDowell, D.L., “A Perspective on Nonlocal Effects in Solids,” workshop on
Nonlocal Solid Mechanics, Summer Engineering Sciences Institute, Sandia
National Laboratories, Livermore, CA, Aug. 10-12, 1999.
18. McDowell, D.L., Lim, T.J. and Smith, B., “Behavior and Modeling of Hollow
Sphere Foams,” Workshop on Ultralight Structural Materials, Organized by
Harvard University/MIT/Cambridge as part of DARPA-ONR MURI, Aug. 30-Sept.
1, Williamsburg, VA, 1999.
19. McDowell, D.L., “Unresolved Issues in Microstructure-Dependence of High Cycle
Fatigue,” Workshop on Performance Requirements for the Engineering
Diffractometer at the Spallation Neutron Source, Atlanta, GA, January 20, 2000.
20. McDowell, D.L., “Microstructure-Based Model for Fatigue of Cast A356-T6 Alloy,
keynote lecture, Int. Symp. on Shape Casting of Al alloys, TMS 2001, New
Orleans, LA, February 12, 2001.
21. Morrissey, R., Goh, C.-H., and McDowell, D.L., “Microstructure-Scale Modeling
of HCF Deformation,” special symposium honoring Professor Sia Nemat-Nasser on
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Experiments and Modeling of Failure of Modern Materials, summer
ASME/ASCE/SES Applied Mechanics meeting, San Diego, CA, June 29, 2001.
22. McDowell, D.L., “Some Mechanics Needs in Modeling Nanoscale Phenomena,”
ARO Workshop on Nanoscale Mechanics, Panama City, FL, April 9, 2002.
23. McDowell, D.L., “Microstructure-Based Deformation, Fatigue and Fracture
Simulations to Support Materials Design,” AFOSR Workshop on Design and
Materials Engineering, Safety Harbor, FL, April 11, 2002.
24. McDowell, D.L., “Homogenization Concepts for Granular and Particle Systems,”
Workshop on Mechanics of Materials, co-organizer, Mathematisches
Forschungsinstitut Oberwolfach, Oberwolfach, Germany, May 5-11, 2002.
25. Bennett, V.P. and McDowell, D.L., “Micromechanics of Microstructurally Small
Surface Cracks in Polycrystals,” invited paper at Symposium in honor of Wolfgang
Knauss, Blacksburg, VA, June 23-28, 2002.
26. McDowell, D.L., “Dan Drucker’s Legacy: Ockham’s Razor and Plasticity Theory,”
Dr. Daniel C. Drucker Memorial Symposium, University of Florida, Gainesville,
FL, Oct. 8-10, 2002.
27. Mistree, F. and McDowell, D.L., “An Interactive, Distributed, Computational
Environment for the Design of Multifunctional Materials and Processes,” AFOSR
Materials Engineering in Affordable New Systems (MEANS) Workshop, August 6-
8, 2003.
28. Cochran, J.K., Hurysz, K.M., Lee, K.J., Liu, M., McDowell, D.L., Rauch, W.L.,
and Sanders, T.H.B., “Co-sintering and Joining of Direct Reduced Alloys to
Zirconia for Hermetic SOFC Packages,” Steven Fishman Symposium, Annual
Meeting of the American Ceramics Society, Indianapolis, IN, April 19-21, 2004.
29. McDowell, D.L., “Challenges to Material Models and Systems-Based Materials
Design Schemes,” ARO/Georgia Tech Workshop on Inverse Techniques in
Materials Design, Atlanta, April 26-28, 2004.
30. McDowell, D.L., “Hierarchical Modeling and Design of Materials,” Plenary
Lecture, 2004 ASME International Design Engineering Technical Conferences, Salt
Lake City, UT, September 30, 2004.
31. Seepersad, C. C., M. G. Fernandez, J. H. Panchal, H.-J. Choi, J. K. Allen, D. L.
McDowell and F. Mistree, 2004, "Materials Design: A Systems-Based Approach,"
Symposium on Integration of Materials Microstructure and Chemistry in
Multidisciplinary Design Optimization, ASME Design Engineering Technical
Conference and Computers and Information in Engineering Conference, Salt Lake
City, UT. Paper Number: DETC2004-57641.
32. McDowell, D.L., Clayton, J.D. and Bammann, D.J., “Some Relevant Issues
Regarding Defect Mechanics in Metal Plasticity,” Wineman Symposium, 41st SES
Meeting, Lincoln, Nebraska, October 11-13, 2004.
33. McDowell, D.L., Wang, A.-J., Kumar, R., Mistree, F., Allen, J.K., and Seepersad,
C.C., “Modeling and Design of Prismatic Cellular Metals,” Torquato Symposium,
41st SES Meeting, Lincoln, Nebraska, October 11-13, 2004.
34. Kumar, R., Wang, A. and McDowell, D.L., “Effects of Microstructure Variability
on Intrinsic Fatigue Resistance,” ASME IMECE 2004, Anaheim, CA, Nov. 13-19,
2004.
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35. Mayeur, J., Neu, R.W. and McDowell, D.L., “Plastic Ratchetting in Fretting
Fatigue,” ASME IMECE 2004, Anaheim, CA, Nov. 13-19, 2004.
36. McDowell, D.L., Neu, R.W., and Lynch, C.S., “Microstructure-Property Modeling
in Support of Multifunctional Materials Design,” Workshop on Computational
Materials Design, State College, PA, January 20-21, 2005.
37. Seepersad, C.C., Kumar, R.S., Mistree, F., Allen, J.K., and McDowell, D.L.,
“Hierarchical Modeling and Design of Materials,” Symposium on Materials By
Design, Plasticity 2005, Kauai, Hawaii, January 3-9, 2005.
38. Wang, A., Kumar, R.S., and McDowell, D.L., “Multiscale Microstructure-Based
Viscoplastic Constitutive Models for Two-Phase Ni-base Superalloys,” Plasticity
2005, Kauai, Hawaii, January 3-9, 2005.
39. McDowell, D.L., “Grand Challenge Multiscale Projects: Multiscale Materials
Design,” Multiscale Simulation Workshop, Oak Ridge National Laboratory, Oak
Ridge, TN, April 4-5, 2005.
40. McDowell, D.L., “Novel Prismatic Cellular Materials,” GTL Workshop on
Damping of SMAs, Composites and Foams, Metz, France, May 10-11, 2005.
41. McDowell, D.L., “Multiscale Computational Modeling for Materials Design,”
STEP Computational Materials Science Workshop, MITRE Corp., McLean, VA,
Aug. 16-17, 2006.
42. McDowell, D.L., “Multiscale characterization, modeling and design of alloy
systems,” Metz/Nancy Workshop on Potential Collaborations, Nancy, France, Sept.
6-7, 2006.
43. McDowell, D.L., “Materials Research at Georgia Tech: A Materials Council
Perspective,” Metz/Nancy Workshop on Potential Collaborations, Nancy, France,
Sept. 6-7, 2006.
44. McDowell, D.L., “Simulation and Robust Design of Materials,” TMS MS&T 2006,
Cincinnati, OH, Oct. 14-18, 2006.
45. McDowell, D.L., “Atomistic Simulations of Grain Boundary Disclination Structure
and Evolution in FCC Metals,” MRS Fall Meeting, Boston, MA, November 28,
2005.
46. McDowell, D.L., “Atomistic Simulations of Grain Boundary Disclination Structure
and Evolution in FCC Metals,” Workshop Mechanics of Materials, Co-organizer,
Mathematisches Forschungsinstitut Oberwolfach, Oberwolfach, Germany, January
22-28, 2006.
47. Austin, R.A. and McDowell, D.L., “Explicit Modeling of Shocked Energetic
Particle Systems,” 2nd Eglin Symposium on Nano Energetics, Eglin AFB, March
22-23, 2006.
48. McDowell, D.L., “Multiscale Modeling of Dislocation/Disclination Mechanics:
Atomistic to Continuum,” Lead Presentation, Workshop on Multiscale Modeling of
Materials: Mathematics and Computation, PNNL, Tacoma, WA, May 25-30, 2006.
49. McDowell, D.L., “A Perspective on Socie's Influence on Approaches to Address
Fatigue of Materials,” Workshop on Advances in Fatigue Assessment Technology:
Honoring Professor Socie, Sponsored by ASTM Committee E08 on Fatigue and
Fracture, ASTM Fall meeting, November 16, 2006.
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50. Liu, Z.-K. and McDowell, D.L., “Overview of the Center for Computational
Materials Design (CCMD),” Symp. On Integrated Computational Materials
Engineering, TMS Annual Meeting & Exhibition, Orlando, FL, Feb. 25-March 1,
2007.
51. Bammann, D.J., Mayeur, J., and McDowell, D.L., “An Internal State Variable
Model of Micropolar Elasto-Viscoplasticity,” Symp. in Honor of Dr. Craig
Hartley’s 40 years of Contributions to the Field of Mechanics and Materials
Science, TMS Annual Meeting & Exhibition, Orlando, FL, Feb. 25-March 1, 2007.
52. McDowell, D.L., “Multiscale Modeling and Microstructure-Property Relations in
Materials Design,” 17th US Army Symposium on Solid Mechanics, Baltimore,
April 2-5, 2007.
53. Prasannavenkatesan, R., Zhang, J. and McDowell, D.L., “3D Modeling of Potency
for Fatigue Crack Nucleation at Primary Inclusions in Carburized and Shot Peened
Gear Steels,” Very High Cycle Fatigue Conference, Ann Arbor, MI, Aug. 19-22,
2007.
54. Przybyla, C. Salageheh, N., Prasanna, R. and McDowell, D.L., “Micromechanical
Modeling of High Cycle Fatigue Processes,” 2007 ASM/TMS Symposium on
Computational Materials Design, GE Global Research, Niskayuna, NY, August 20-
21, 2007.
55. Tschopp, M.A., Tucker, G., Mayeur, J. and McDowell, D.L., “Grain Boundary
Structure, Properties and Implications for Dislocation/Disclination Mechanics in
FCC Metals,” IUTAM Symposium on Multiscale Plasticity of Crystalline
Materials, TU/e, Eindhoven, The Netherlands, November 5-9, 2007.
56. McDowell, D.L., “Multiscale Modeling and Materials Design,” TMS 2008 9th
Global Innovations Symposium on Trends in ICME, New Orleans, LA, March 9-
13, 2008.
57. Tschopp, M.A. Tiwari, S., Ghosh, S., and McDowell, D.L., “Influence of Grain
Boundary Character on Nanocrystalline Plasticity,” TMS 2008 Hael Mughrabi
Honorary Symposium on Plasticity, Failure and Fatigue in Structural Materials,
New Orleans, LA, March 9-13, 2008.
58. Tschopp, M.A. and McDowell, D.L., “Atomistic Simulations of Grain Boundary
Dislocation Nucleation,” TMS 2008 Hael Mughrabi Honorary Symposium on
Plasticity, Failure and Fatigue in Structural Materials, New Orleans, LA, March 9-
13, 2008.
59. Tucker, G., Tschopp, M.A. and McDowell, D.L., “Atomistic Simulations of
Dislocation Nucleation in Copper Grain Boundaries under Uniaxial Tension and
Compression,” TMS 2008 Hael Mughrabi Honorary Symposium on Plasticity,
Failure and Fatigue in Structural Materials, New Orleans, LA, March 9-13, 2008.
60. Przybyla, C. and McDowell, D.L., “Using Marked and Unmarked Correlations to
Investigate Interactions of Microstructure Attributes in Fatigue of Titanium Alloys
and Nickel Superalloys,” TMS 2008 Hael Mughrabi Honorary Symposium on
Plasticity, Failure and Fatigue in Structural Materials, New Orleans, LA, March 9-
13, 200
61. Przybyla, C., Salageheh, N., Prasannavenkatesan, R., and McDowell, D.L.,
“Microstructure-Sensitive Modeling of High Cycle Fatigue,” International
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Conference on Heterogeneous Material Mechanics, Huangshan, China, June 3-8,
2008.
62. McDowell, D.L., “Comments on Multiscale and Multi-physics Modeling,”
International Conference on Heterogeneous Material Mechanics, Huangshan,
China, June 3-8, 2008.
63. McDowell, D.L., “Comments on Stochastic Microstructure Evolution and
Degradation,” International Conference on Heterogeneous Material Mechanics,
Huangshan, China, June 3-8, 2008.
64. McDowell, D.L., “Selected Gaps and Opportunities: Multiscale Plasticity and
Materials Design,” Army Research Laboratory Workshop: Multi-Scale Materials
Behavior in Ultra-High Loading Rate Environments,” Towson, MD, Sept. 22-24,
2008.
65. Przybyla, C., Prasannavenkatesan, R., Salageheh, N., and McDowell, D.L.,
“Microstructure-Sensitive Modeling of High Cycle Fatigue,” Symposium on
Fatigue of Materials: Competing Failure Modes and Variability in Fatigue Life,
MS&T ’08, Pittsburgh, PA, Oct. 5-9, 2008.
66. Przybyla, C. and McDowell, D.L., “Extreme Value Marked Correlation Statistics in
HCF of Ti-6Al-4V,” Symposium on Fatigue of Materials: Competing Failure
Modes and Variability in Fatigue Life, MS&T ’08, Pittsburgh, PA, Oct. 5-9, 2008.
67. Tschopp, M.A. and McDowell, D.L., “Asymmetric Tilt Grain Boundary Structure
and Energy in Copper and Aluminum,” Session on Ceramic Surfaces, Grain
Boundaries and Interfaces, MS&T ’08, Pittsburgh, PA, Oct. 5-9, 2008.
68. McDowell, D.L., “Robust Simulation-Based Design of Materials,” Symposium on
Computational Materials Design, 4th International Conference on Multiscale
Materials Modeling (MMM 2008), Tallahassee, FL, Oct. 29, 2008.
69. McDowell, D.L., “Selective GT Overview: Materials Design for Transportation and
Energy Applications,” Workshop on GT-IIT KGP Alliance Product Creation
Network, IIT Kharagpur, India, November 19, 2008.
70. McDowell, D.L., “MAI Durable High Temperature Disk Materials PW-7,”
presented to Hybrid Disk Workshop, Tec^Edge, Dayton, Ohio, December 15, 2008.
71. Luscher, D.J., McDowell, D.L., and Bronkhorst, C.A., “A Hierarchical Multiscale
Framework for Modeling Microstructure Evolution,” Plasticity 2009, the 15th
International Symposium on Plasticity and its Current Applications, St. Thomas,
Virgin Islands, January 3-8, 2009.
72. Austin, R.A. and McDowell, D.L., “A Model for the Strength of FCC Polycrsytals
in the Shock Loading Regime,” Plasticity 2009, the 15th International Symposium
on Plasticity and its Current Applications, St. Thomas, Virgin Islands, January 3-8,
2009.
73. McDowell, D.L., “Integrated Materials and Product Design in Energy Related
Applications,” GWW School of Mechanical Engineering Workshop on Sustainable
Energy Pathways and Solutions, Atlanta, GA, April 2-3, 2009.
74. McDowell, D.L., “Computational Materials Design,” Joint ME/BME Workshop on
Campus-Wide Bioengineering Activities, Georgia Tech, Atlanta, GA, April 27,
2009.
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75. Przybyla, C., Shenoy, M., Tjiptowidjojo, Y., and McDowell, D.L., “Microstructure-
Sensitive Constitutive Relations for Prognosis and Location-Specific Design,”
AEROMAT 2009, Dayton, OH, June 8-11, 2009. 76. McDowell, D.L. and Zhu, T., “Multiresolution, Coarse-Grained Modeling of 3D
Dislocation Nucleation and Migration,” NSF CMMI Research and Innovation
Conference 2009, Honolulu, HI, June 22-25, 2009.
77. Przybyla, C.P. and McDowell, D.L., “Microstructure-Sensitive Extreme Value
Probabilities of Fatigue in Advanced Engineering Alloys,” 10th US National
Congress on Computational Mechanics, Columbus, OH, July 16-19, 2009. 78. McDowell, D.L., “Hierarchical Metal Plasticity and Materials Design,” 1st
International Conference on Material Modelling, Dortmund, Germany, September
15-17, 2009. 79. Bridier, F., Villechaise, and McDowell, D.L., “Crystal plasticity modeling of slip
activity in Ti-6Al-4V alloy under high cycle fatigue loading: crystallographic
aspects at different scales,” 1st International Conference on Material Modelling,
Dortmund, Germany, September 15-17, 2009.
80. Liu, Z.-K. and McDowell, D.L., “Materials Research Paradigm Driven by
Computation,” MS&T 2009, Pittsburgh, OH, October 28, 2009. 81. McDowell, D.L., “Some Comments on Materials Design Education,” MS&T 2009,
Pittsburgh, OH, October 29, 2009.
82. Garritt, G.J. and McDowell, D.L., “Atomistic Simulations of Structure and
Dislocation Nucleation at Equilibrium and Non-Equilibrium Bicrystal Boundaries,”
Symposium 12-7, Multphysics Simulations for Solids, 2009 ASME IMECE,
Orlando, FL, Nov. 15-19, 2009.
83. Shenoy, M., Tjiptowidjojo, Y., Przybyla, C. and McDowell, D.L., “Hierarchical
Multiscale Microstructure-Sensitive Constitutive Relations for Location-Specific
Fatigue Design, Symposium 1-4, Structure and Materials for Aerospace and
Lightweight Structures, 2009 ASME IMECE, Orlando, FL, Nov. 15-19, 2009. 84. Tucker, G. and McDowell, D.L., “Probing Non-Equilibrium Grain Boundary
Plasticity at the Nanoscale with Atomistic Simulations,” Plasticity 2010, the 16th
International Symposium on Plasticity and its Current Applications, St Kitts Island,
Jan. 3-8, 2010.
85. Luscher, D. and McDowell, D.L., “Multiscale Modeling of Evolving
Microstructure,” Plasticity 2010, the 16th International Symposium on Plasticity and
its Current Applications, St Kitts Island, Jan. 3-8, 2010.
86. McDowell, D.L., “Overview of Recent Crystal Plasticity Modeling Efforts at
Georgia Tech,” Rolls-Royce North America Workshop on Crystal Plasticity,
Indianapolis, IN, January 11-12, 2010.
87. Tucker, G.J. and McDowell, D.L., “Dislocation Nucleation and Re-Ordering of
Bicrystal Interfaces,” Vasek Vitek Honorary Symposium on Crystal Defects,
Computational Materials Science and Applications: Dislocations I, TMS 2010,
Seattle, WA, Feb. 14-18, 2010.
88. Musinski, W. and McDowell, D.L., “Novel Methods for Microstructure-Sensitive
Probabilistic Fatigue Notch Factor,” TMS 2010, Seattle, WA, Feb. 14-18, 2010.
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89. McDowell, D.L., “Distinguishing Statistical and Representative Volume Elements
in Structure-Property Simulations,” Symposium on Three-Dimensional Materials
Science VI: 3D Representative Volume Elements and Simulated Microstructure,
TMS 2010, Seattle, WA, Feb. 14-18, 2010.
90. McDowell, D.L., “Overview: Crystal Plasticity for Ti alloys,” Boeing
Workshop on Ti Multiscale Modeling and Simulation Workshop, Seattle, WA, Feb.
18, 2010.
91. McDowell, D.L., “Robust Materials Design and Multiscale Simulation: Distinct but
Complementary Pursuits,” invited presentation, Tools, Models, Databases and
Simulation Tools Developed and Needed to Realize the Vision of ICME: Material
Model and Simulation Tools, Part II, MS&T 2010, Houston, TX, Oct. 19, 2010.
92. Tucker, G., Tiwari, S., and McDowell, D.L., “Interfacial Mechanisms in
Deformation of Nanocrystalline Copper Using MD Simulations and Continuum
Kinematic Filters,” Plasticity 2011, the 17th International Symposium on Plasticity
and its Current Applications, Puerto-Vallerta, Mexico, Jan. 3-8, 2011.
93. McDowell, D.L., “Statistical Sampling in Volume Elements for Evolutionary
Structure-Property Relations,” International Workshop on Advanced Problems of
Mechanics and Physics of Mesoscopic Systems, Perm, Russia, Feb. 1-4, 2011.
94. McDowell, D.L., “RVE Identification and Homogenization,Upscaling Constitutive
Relations,” NSF Workshop on Challenges in Computational Multiscale Materials
Modeling (CCMMM), Arlington, VA, May 4, 2011.
95. McDowell, D.L., “Biased Sampling in Elements for Evolutionary Structure-
Property Relations,” ICHMM 2011, Shanghai, China, May 22-26, 2011.
96. McDowell, D.L., “Fundamental Challenges: Crystal Plasticity of Microstructures,”
ICHMM 2011, Shanghai, China, May 22-26, 2011.
97. Tucker, G.J., Tiwari, S., Zimmerman, J., and McDowell, D.L., “Resolving
Deformation Modes of Nanocrystalline Metals using Continuum Metrics Based on
Atomistic Simulations”, ICHMM 2011, Shanghai, China, May 22-26, 2011.
98. Mayeur, J., Bammann, D.J., and McDowell, D.L., “Heterogeneous Deformation of
Polycrystals Simulated with Micropolar Single Crystal Plasticity”, ICHMM 2011,
Shanghai, China, May 22-26, 2011.
99. Mayeur, J., Bammann, D.J., and McDowell, D.L., “Dislocation Density Based
Micropolar Single Crystal Plasticity,” ICMM2, Paris (Ecole des Mines), Aug. 31-
Sept. 2, 2011.
100. Tucker, G.J., Tiwari, S., Zimmerman, J., and McDowell, D.L., “Deformation
Modes in Nanocrystalline Materials,” ICMM2, Paris (Ecole des Mines), Aug. 31-
Sept. 2, 2011.
101. Tucker, G.J., Tiwari, S., Zimmerman, J., and McDowell, D.L., “Evolution of
Microstructure in the Deformation of Nanocrystalline Metals,” SES 2011, 48th
Annual Technical Conference of the Society of Engineering Science, Northwestern
University, Evanston, IL, Oct. 12, 2011.
102. McDowell, D.L., “Emerging Trends in Concurrent Material and Product Design,”
GTRI Workshop on the White House Materials Genome Initiative, Oct. 14, 2011.
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103. Przybyla, C., Salajegheh, N., Musinski, W., and McDowell, D.L., “Microstructure-
Sensitive HCF and VHCF Simulations,” MS&T 2011, Columbus, OH, Oct. 17,
2011.
104. McDowell, D.L., “A Perspective on the Materials Genome Initiative,” Core
University Materials Genome Initiative Workshop, ORNL, Oak Ridge, TN, Oct. 26,
2011.
105. McDowell, D.L., “Dislocation Nucleation, Slip Activation, Interface Mediation and
Size Effects,” Workshop on Complex Dynamics of Dislocations, Defects, and
Interfaces, LANL, Los Alamos, New Mexico, Nov. 14-16, 2011.
106. McDowell, D.L., “Microstructure-Sensitive Computational Methods in Multiaxial
Fatigue,” 2nd Multiaxial Fatigue Summit, St. Petersburg, FL, February 2-3, 2012.
107. McDowell, D.L., “Simulation-Based Strategies to Support Alloy Design for Fatigue
Resistance,” Symposium on Integrative Materials Design: Performance and
Sustainability, TMS Annual Meeting 2012, Orlando, FL, March 12-16, 2012.
108. McDowell, D.L., “Materials Genome Initiative: Implications for University
Education and Research,” invited speaker, Materials Genome Town Hall Meeting,
Brown University, Providence, RI, March 28, 2012.
109. McDowell, D.L., “Multiscale Modeling and Microstructure-Sensitive Materials
Design,” 3rd Symposium of Predictive Science and Technology of Mechanics of
Materials, CAVS, Mississippi State University, Starkeville, MS, June 25-28, 2012.
110. Castelluccio, G.M. and McDowell, D.L., “Fatigue Life Prediction at a
Microstructural Scale: From Subgrains to Multiple Grains,” International
Conference on Fatigue Damage of Structural Materials IX, Hyannis, MA,
September 16-21, 2012.
111. Mayeur, J. and McDowell, D.L., “Micropolar Crystal Plasticity at the Micron
Scale,” International Workshop on Computational Mechanics of Materials,
IWCMM XXII, Baltimore, MD, September 24-26, 2012.
112. McDowell, D.L., “Gaps in Modeling Multiscale Plasticity,” ASME IMECE,
Houston, TX, November 11-14, 2012.
113. McDowell, D.L., “Extreme Value Fatigue of Advanced Alloys,” ASME IMECE,
Houston, TX, November 11-14, 2012.
114. McDowell, D.L., “Extreme Events that Limit Lifetimes of Components:
Microstructure-Sensitive High Cycle Fatigue,” Joint CMU/Purdue/UMich/UES
Workshop on DataFusion for the Detection of Rare and Anomalous Events, Dayton,
OH, December 17-19, 2012.
115. McDowell, D.L., “Modeling Inelastic Behavior at Multiple Scales for Multiple
Purposes,” Plasticity 2013, Nassau, the Bahamas, January 3-8, 2013.
116. McDowell, D.L. “Damage Mechanics and Fatigue – A Discriminating Perspective,”
NAVAIR/DSTO Fatigue Technology Symposium, Melbourne, Australia, March
12-13, 2013.
117. McDowell, D.L. “Microstructure-Sensitive Modeling of Fatigue in Metals,”
NAVAIR/DSTO Fatigue Technology Symposium, Melbourne, Australia, March
12-13, 2013.
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118. McDowell, D.L. “Modeling Microstructurally Small 3D Fatigue Crack Growth in
Polycrystals,” NAVAIR/DSTO Fatigue Technology Symposium, Melbourne,
Australia, March 12-13, 2013.
119. McDowell, D.L., “Redefining CAD to Incorporate Simulation-Assisted Integration
of New and Improved Materials Development,” Invited presentation at DARPA
ISAT Rethinking CAD Workshop, October 24-25, 2013, Arlington, VA.
120. McDowell, D.L., “Modeling Inelastic Behavior of Metals at Multiple Scales to
Support Materials Design,” MS&T ’13, Montreal, Quebec, Canada, October 27-31,
2013.
121. McDowell, D.L., “Extreme Value Fatigue Assessment of Microstructures,”
Symposium JJ: Materials Fundamentals of Fatigue and Fracture, MRS Fall
Meeting, Boston, MA, Dec. 3, 2013.
122. McDowell, D.L., “Microstructure Sensitivity and Uncertainty in Modeling Fatigue
Crack Formation and Early Growth in Advanced Alloys,” TMS 2014, San Diego,
CA, Feb. 17, 2014.
123. Castelluccio, G.M. and McDowell, D.L., “Modeling Fatigue Crack Formation and
Early Growth in 3D Polycrystalline Microstructures under Multiaxial Loading,”
Fatigue 2014, 11th International Fatigue Congress, Melbourne, Australia, March 3,
2014.
124. McDowell, D.L., “Materials Innovation Ecosystem and Accelerator Network,”
Town Hall Meeting on the National and International Materials Data Infrastructure,
MS&T 2014, Pittsburgh, PA, October 14, 2014.
125. McDowell, D.L., “Scale Bridging of Inelastic Behavior of Heterogeneous Metals:
Multiscale Modeling and Multilevel Materials Design,” MRS Fall Meeting, Invited
presentation in Symposium on Multiscale Modeling, Boston, MA, Dec. 2, 2014.
126. McDowell, D.L., “Perspectives on Top-Down and Bottom-Up Microstructure-
Sensitive Fatigue Modeling,” TMS 2015, Orlando, FL, March 16-19, 2015.
127. Priddy, M.W., Weaver, J., Paulson, N.H., Kalidindi, S.R., and McDowell, D.L.,
“Spherical Nanoindentation and Local Crystal Plasticity Modeling of Ti-6Al-4V,”
TMS 2015, Orlando, FL, March 16-19, 2015.
128. Tallman, A., Blumer, J., Wang, Y., Narayanan, S., Zhu, T. and McDowell, D.L.,
“Bottom-up and Top-down Uncertainty Quantification of bcc Fe Single Crystal
Plasticity,” ICME 3rd World Congress, Colorado Springs, CO, June 3, 2015
(invited).
129. Castelluccio, G.M., Hennessey, C., Kern, P., and McDowell, D.L., “Modeling
Microstructurally Small Cracks in Multiaxial Fatigue,” NAVAIR Structural
Mechanics TIM 2015, Falls Church, VA, June 24-26, 2015.
130. McDowell, D.L., “Some Important Scientific and Engineering Challenge for
ICME,” NAVAIR Structural Mechanics TIM 2015, Falls Church, VA, June 24-26,
2015.
131. Priddy, M., Paulson, N., Kalidindi, S., and McDowell, D.L., “Strategies for Rapid
Parametric Assessment of Microstructure-Sensitive Fatigue for HCP Systems,” 4th
Int. Conf. on Materials Modeling, Berkeley, CA, May 27-29, 2015.
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132. Xu, S., Chen, Y., and McDowell, D.L., “A Concurrent Atomistic Continuum Study
of Dislocation Pileups at Grain Boundaries,” 4th Int. Conf. on Materials Modeling,
Berkeley, CA, May 27-29, 2015.
133. McDowell, D.L., “Summary of June 2014 Workshop Report: Building a Materials
Accelerator Network,” University Materials Council meeting, MS&T 2015,
Columbus, OH, October 7, 2015.
134. McDowell, D.L., “Top-Down and Bottom-Up Microstructure-Sensitive Modeling
of Inelasticity,´ Plasticity 2016, Kona, HI Jan.3-9, 2016.
135. McDowell, D.L., “Shock Modeling in Polycrystalline Alloys,” 2nd Joint Sandia-
Georgia Tech Materials Workshop, Albuquerque, NM, Feb. 10-11, 2016.
136. McDowell, D.L., “Decision Support Strategies in Design of Hierarchical Alloy
Systems,” TMS 2016, Nashville, TN., Feb. 14-18, 2016.
137. Hennessey, C., Kern, P. and McDowell, D.L., “Modeling 3D Microstructurally
Small Crack Growth in 7075-T6 Al,” TMS 2016, Nashville, TN., Feb. 14-18, 2016.
138. Paulson, N.H., Priddy, M.W., Kalidindi, S.R., and McDowell, D.L., Rapid
Evaluation of Titanium Microstructures for Fatigue Resistance through
Computationally Efficient Localization Approaches,” TMS 2016, Nashville, TN.,
Feb. 14-18, 2016.
139. McDowell, D.L., Materials Data Cyberinfrastructure and Future Workforce
Development at Georgia Tech,” Workshop on Rise of Data in Materials Research,”
TMS 2016, Nashville, TN., Feb. 14-18, 2016.
140. McDowell, D.L., Neu, R.W., and Kalidindi, S.R., “Coupling Experiment,
Computation and Data Science in Design and Development of Gas Turbine
Materials, ASME Power and Energy Conference & Exhibition, Charlotte, NC, June
26-30, 2016.
141. McDowell, D.L., “Meeting the MGI Strategic Goals and Strengthening
Connections,” Invited Panelist, 5th Anniversary of the Materials Genome Initiative:
Accomplishments and Opportunities, The White House, August 2, 2016.
142. Muth, A., Kern, P., Tallman, A., Payne, T., Shih, D., and Smith, B.
“Microstructure-Sensitive Computational Scheme for Fatigue Resistance of
Gamma-TiAl TNM Alloys,” TMS 2017, San Diego, Feb. 27-March 1, 2017.
143. McDowell, D.L., “Utility of Microstructure-Sensitive Computational Fatigue
Modeling,” International Workshop on Quantitative Mechanistic Nucleation and
Microstructure-Sensitive Growth of Fatigue Cracks, Pembroke College, Oxford,
UK, April 3-4, 2017.
144. McDowell, D.L., “Model Form and Parameter Sensitivity and Uncertainty in
Multiscale Model Calibration,” Symposium TC5, “Uncertainty Quantification in
Multiscale Materials Simulation” Fall 2017 MRS Meeting in Boston, MA,
November 29, 2017.
145. McDowell, D.L., “Multiscale Modeling and Decision Support for Metals Additive
Manufacturing,” Plasticity 2018, San Juan, Puerto Rico, Jan.4-8, 2018.
146. McDowell, D.L., “Challenges to Predictive Kinetics in Complex Dislocation
Energy Landscapes,” TMS 2018, Phoenix, AZ, March 12-16, 2018.
147. McDowell, D.L., “Nuances in Addressing Multilevel Materials Design Problems,”
TMS 2018, Phoenix, AZ, March 12-16, 2018.
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148. McDowell, D.L., “Trends in Microstructure-sensitive Computational Approaches to
Fatigue Cracking,” TMS 2018, Phoenix, AZ, March 12-16, 2018.
149. McDowell, D.L., “Gaps in Multiscale Modeling to Address Mechanical Properties
of Metal Alloys,” TMS 2018, Phoenix, AZ, March 12-16, 2018.
D3. Conference and Workshop Presentations
1. McDowell, D. L., "An Internal Extensometer for Strain Measurement in a Thin-
Walled Tube," Spring Meeting of ASTM Committee E-9 on Fatigue, Workshop on
Multiaxial Strain Measurement, Phoenix, AZ., May 1981.
2. McDowell, D. L., "Methodology of the Out-of-Phase Incremental Step Test," Fall
Meeting of ASTM Committee E-9 on Fatigue, Workshop on Multiaxial Fatigue, St.
Louis, MO., October 23, 1981.
3. McDowell, D. L. and D. F. Socie, "Review of Multiaxial Fatigue Design Criteria,"
ASCE 1983 Spring Convention, Session No. 48-S9.1, Fatigue and Fracture: Design
Specifications and Fracture Control Plans, Philadelphia, PA, May 18, 1983.
4. McDowell, D. L., Cyclic Hardening of 304 Stainless Steel Under Nonproportional
Loading," Spring meeting of ASTM Committee E9.01 on Fatigue (Mechanical and
Micro-Mechanical Modeling of Cyclic Deformation and Fracture Processes),
Jacksonville, Florida, April 9-11, 1984.
5. McDowell, D. L., "A Two Surface Plasticity Theory for Nonproportional Cyclic
Loading," SAE Fatigue Design and Evaluation Committee Meeting, Batelle's
Columbus Laboratories, Columbus, Ohio, April 3, 1984.
6. McDowell, D. L., "Comments on the Structure of Multiaxial Constitutive Models,"
Multiaxial Meeting of Fracture and Fatigue/Structural Mechanics Branches, NASA
Lewis Research Center, January 22, 1985.
7. McDowell, D. L., "Potential for Materials Characterization Using Multiaxial
Nonproportional Testing," ASTM Spring Conference, Subcommittee E9-04,
Cincinnati, OH, April 27, 1987.
8. McDowell, D. L., "Review of Creep Crack Growth Parameters," ASTM Spring
Meeting, Subcommittees E24.07-08, Cincinnati, OH, April 28, 1987.
9. Thackston, G.W., Oehmke, R.L.T., and McDowell, D.L., "Interactive PC Based
Control of Experiments with Arbitrary Histories," ASTM Workshop on
Microcomputer Control in the Materials Testing Laboratory, Bal Harbour, FL, Nov.
9-11, 1987.
10. Moosbrugger, J.C. and McDowell, D.L., "Consideration of Rate-Dependence and
Anisotropy Within the Framework of Bounding Surface Inelasticity," ASME/SES
Summer Annual Meeting, Berkeley, CA, June 20-22, 1988.
11. McDowell, D.L., "A J-Based Approach to Multiaxial Fatigue," Workshop on
Multiaxial Fatigue, ASTM May Meeting, Kansas City, MO, May 21-26, 1989.
12. McDowell, D.L, Miller, M.P. and Oehmke, R.L.T., "Microcrack Propagation under
TMF Loading for Ni-Base Superalloys," Fifth Thermomechanical Fatigue (TMF)
Workshop, NASA Lewis Research Center, Cleveland, Oct. 10-11, 1989.
13. McDowell, D.L., "Micromechanical Interpretation of State Variable
Viscoplasticity," SECTAM XV, Atlanta, March 22-23, 1990.
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14. Oehmke, R.L.T., McDowell, D.L. and Miller, M.P., "Bi-Thermal Testing Using
Conventional Materials Testing Equipment and a Microcomputer," ASTM
Subcommittee E9.04 meeting on Apparatus and Test Methods, ASTM Spring
Meeting, Indianapolis, May 8, 1991.
15. Miller, M.P., McDowell, D.L. and Oehmke, R.L.T., "A Life Prediction Model for
Thermomechanical Fatigue Based on Microcrack Propagation," Sixth
Thermomechanical Fatigue (TMF) Workshop, NASA Lewis Research Center,
Cleveland, June 5-6, 1991.
16. McDowell, D.L., "Some Multiaxial Aspects of Temperature and Rate-Sensitive
Metallic Behavior," SEM Spring Conference and Exhibition, Baltimore, Maryland,
June 6-8, 1994.
17. Lacy, T.E., Willice, P.A., McDowell, D.L. and Talreja, R., "Representative Volume
Element (RVE) Averaging Concepts for Damage Evolution," Symposium on
Mechanics of Damage in Composites, Society of Engineering Science 31st Annual
Technical Meeting, College Station, TX, Oct. 10-12, 1994
18. Lacy, T., Talreja, R. and McDowell, D.L., "Characterization of the Spatial
Distribution of Damage," 19th Int. Congress of Theoretical and Applied Mechanics,
Kyoto, Japan, Aug. 25-31, 1996.
19. Butler, G.C. and McDowell, D.L., "Polycrystal Constraint and Grain Subdivision,"
Symp. on Failure Mechanisms in Multiphase Materials, ASME Winter Annual
Meeting, Atlanta, Nov. 17-22, 1996.
20. Lim, T.J. and McDowell, D.L., “Behavior of Shape Memory Alloys Under
Complex Cyclic Loading,” ASME IMECE Symp. On Constutive Behavior of
Actuator Materials, Dallas, TX, November 18, 1997.
21. Tanner, A.B., McDowell, D.L. and McGinty, R.D., “Study of Macro- and Meso-
Scale ISV Models for Complex Histories,” 13th U.S. National Congress of
Applied Mechanics, University of Florida, June 21-26, 1998.
22. Butler, G.C., Morano, R., McDowell, D.L. and Stock, S.R., “Polychromatic
Synchrotron X-ray Diffraction Quantification of Grain Subdivision Accompanying
Large Deformations of Copper,” 47th Annual Denver X-ray Conference, 3-7
August, 1998, Colorado Springs, CO.
23. McGinty, R.D. and McDowell, D.L., “Multiscale Polycrystal Plasticity,” 35th
Annual Technical Meeting, Society of Engineering Science, Washington State
University, Pullman, WA, Sept. 27-30, 1998.
24. McDowell, D.L., “Use of Nonproportional and Sequence Experiments to Study the
Structure of ISV Constitutive Relations,” 35th Annual Technical Meeting, Society
of Engineering Science, Washington State University, Pullman, WA, Sept. 27-30,
1998.
25. Gall, K., Lim, J., McDowell, D.L. and Sehitoglu, H., “Intergranular Constraint in
NiTi Shape Memory Alloys,” ASME IMECE, Nashville, TN, Nov. 14-19, 1999.
26. McDowell, D.L., A. Saxena, R.W. Neu, W.S. Johnson and J. Qu, “Integrated
Prognostics for Fatigue Damage,” ASME IMECE, Nashville, TN, Nov. 14-19,
1999.
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27. Butler, G.C., McGinty, R.D., and McDowell, D.L., “An Internal State Variable
Model for Dislocation Substructure Formation in Polycrystal Plasticity,” ICTAM
2000, Chicago, IL, August 29, 2000.
28. Spearot, D.E., Jacob, K.I., Zhou, M. and McDowell, D.L., “Nonlocal Separation
Constitutive Laws for Interfaces and their Relation to Nanoscale Simulations,” 1st
Georgia Tech Conference on Nanoscience and Nanotechnology, October 16-18,
2000, Atlanta, GA.
29. Qu, J. and McDowell, D.L., “Mechanics of Plasticity and Fracture in Processing
and Performance of Interconnects,” ASME Fall IMECE, Orlando, FL, November 9,
2000.
30. McDowell, D.L., “Micromechanics Studies of High Cycle Metal Fatigue,” ASME
Fall IMECE, Orlando, FL, November 10, 2000.
31. Rosen, C.M. and McDowell, D.L., “Example of a Simple Integrated
Diagnostic/Prognostic System,” fall ASTM conference, Orlando, FL, November 14,
2000.
32. Cochran, J.K., Lee, K.J., McDowell, D.L. and Sanders, T., Multifunctional Metallic
Honeycombs by Thermal Chemical Processing, Proc. TMS 2002 Annual Meeting,
Seattle, WA, Feb. 2001.
33. Goh, C.-H., Neu, R.W., McDowell, D.L. and Wallace, J.M., “Influence of Friction
Coefficient in Nonhomogeneous Simulation of Fretting Fatigue,” 3rd Int. Symp. On
Fretting Fatigue, Nagaoka-shi, Japan, 15-18 May, 2001.
34. Schroeter, B., Clayton, J., Graham, S., and McDowell, D.L., “Distributions of
Stretch and Rotation in Polycrystalline OFHC Cu, summer ASME/ASCE/SES
Applied Mechanics meeting, San Diego, CA, June 27, 2001.
35. Aleong, D., Dumont, C., McDowell, D.L., Patoor, E., and Chirani, S.A.,
“Transformation Surfaces and Normality for Random and Textured Pseudoelastic
Cu-Zn-Al Shape Memory Alloys,” summer ASME/ASCE/SES Applied Mechanics
meeting, San Diego, CA, June 29, 2001.
36. Shepherd, J. and McDowell, D.L., “Modeling the development of strain induced
crystallization by use of network models and orientation distribution functions,”
Symposium on Stress-Induced Polymer Crystallization, ASME IMECE, New York,
NY, Nov. 16, 2001.
37. Zhou, M. and McDowell, D.L., “Averaging Concepts for Atomic and Particle
Systems,” 14th US National Congress on Theoretical and Applied Mechanics,
Blacksburg, VA, June 23-28, 2002.
38. Spearot, D., Jacob, K.I. and McDowell, D.L., “Nonlocal Separation Constitutive
Laws for Interfaces Informed by Nano-Scale Simulations,” SES 2002, Penn State
University, State College, PA, Oct. 13-16, 2002.
39. Clayton, J.D., Bammann, D.J. and McDowell, D.L., “A Multiscale Gradient Theory
for Elastoviscoplasticity of Single Crystals,” Proc. SES 2002, Penn State
University, State College, PA, Oct. 13-16, 2002.
40. McDowell, D.L., “Nanoscale Mechanics Efforts within the MPRL,” Conference on
Nanoscience and Nanotechnology, Georgia Tech, Oct. 30-Nov. 1, 2002.
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41. Clayton, J.D., McDowell, D.L. and Bammann, D.J., “A Multiscale Gradient Model
of Finite Crystalline Elastoviscoplasticity,” Proc. 16th U.S. Army Symposium on
Solid Mechanics, Charleston, SC, May 4-7, 2003.
42. Wang, A.-J. and McDowell, D.L., “Mechanics of Prismatic Cellular Materials,”
Proc. 16th U.S. Army Symposium on Solid Mechanics, Charleston, SC, May 4-7,
2003.
43. Kumar, R.S., Wang, A. and McDowell, D.L., “Effects of Microstructure on Cyclic
Plasticity of Ni-base Superalloys,” Plasticity 2003, Dislocations, Plasticity and
Metal Forming, Quebec City, Canada, July 7-12, 2003.
44. Kumar, R.S., Wang, A. and Mc Dowell, D.L., “Multiscale Modeling of Plasticity in
Ni-base Superalloys,” Plasticity 2003, Dislocations, Plasticity and Metal Forming,
Quebec City, Canada, July 7-12, 2003.
45. Spearot, D.E., Jacob, K.I. and McDowell, D.L., “Separation Constitutive Laws for
Interfaces Informed by Nanoscale Simulations,” 5th European Solid Mechanics
Conference, Thessaloniki, Greece, August 20, 2003.
46. Cochran, J., Clark, J., Lee, J., McDowell, D.L., Sanders, T., and Thadhani, N.,
"Layered Cellular Alloys for Civilian Armor: Multiple Energy Absorbing (Ea)
Mechanisms," ASM Materials Solutions Conference 2003, Pittsburgh, PA, October
13-15, 2003
47. Clark, J., Cochran, J., Lee, J., McDowell, D.L., Sanders, T., and Thadhani, N.,
“Quasistatic and High Strain Rate Properties of FeNiCoMoTi Alloys and Linear
Cellular Structures,” Structure-Property Relationships in High Performance Ferrous
Based Systems Possessing Composite Like Structures, MS&T ‘03/TMS/ISS,
Chicago, IL, November 10-13, 2003.
48. Mayeur, J. and McDowell, D.L., “Crystal Plasticity Modeling of Alpha-Beta Ti
Alloys,” 2003 ASME International Mechanical Engineering Congress, Washington,
DC, Nov. 16-20, 2003.
49. Kumar, R.S. and McDowell, D.L., “Generalized Continuum Modeling of Linear
Cellular Materials,” 2003 ASME International Mechanical Engineering Congress,
Washington, DC, Nov. 16-20, 2003.
50. Shenoy, M.M., Kumar, R.S., and McDowell, D.L., “Modeling Fatigue Crack
Initiation in Multiphase Alloys,” 2003 ASME International Mechanical Engineering
Congress, Washington, DC, Nov. 16-20, 2003.
51. Shepherd, J.E., Jacob, K.I., and McDowell, D.L., “A Constitutive Model that
Predicts the Evolution of Crystallization,” 2003 ASME International Mechanical
Engineering Congress, Washington, DC, Nov. 16-20, 2003.
52. Horstemeyer, M., Gall, K., McDowell, D.L., and Gullett, P. “Multiscale Modeling
and Experiments of Fatigue Damage in a Cast Magnesium Alloy,” 2003 ASME
International Mechanical Engineering Congress, Washington, DC, Nov. 16-20,
2003.
53. Neu, R.W., McDowell, D.L., Mayeur, J.R., Goh, C.-H., and Swalla, D.R., "Fretting
Fatigue of Ti-6Al-4V: A Micromechanical Approach," 2nd U.S.-Korea Workshop
on Advances in Metallic Structural Materials, May 11-13, 2004.
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54. Mayeur, J.R., McDowell, D.L. and Neu, R.W., “Effect of crystallographic texture
on deformation fields in fretting contacts,” World Tribology Conference III (WTC
III), Washington, DC, September 12-16, 2005.
55. Jordan, J.L., Dick, R.D., Ferranti, L., Thadhani, N.N., Austin, R.A., McDowell,
D.L., and Benson, D.J., “Equation of State of Aluminum – Iron Oxide (Fe2O3) –
Epoxy Composite: Modeling and Experiment,” APS meeting, Baltimore, MD July
31-Aug 5, 2005.
56. Bhattacharyya, D., Kar, S., Schirra, J.J., Savage, M.F., Milligan, W.W., McDowell,
D.L., Fraser, H.L., and Mills, M.J., “Prediction of Creep Behavior of Ti-6Al-4V on
the Basis of Microstructure-Dependent Models,” Symposium on Modeling and
Simulation of Titanium Technology: Theory and Practices, Materials Science &
Technology 2005, TMS, Pittsburgh, PA, Sept. 25-28, 2005.
57. Horstemeyer, M., Xue, Y., McDowell, D.L., and Burton, C., “Multistage Fatigue
Modeling of Cast A356 and A380 Aluminum Alloys,” Symposium on Symposium:
Simulation of Aluminum Shape Casting Processing: From Alloy Design to
Mechanical Properties, Materials Science & Technology 2005, TMS, Pittsburgh,
PA, Sept. 25-28, 2005.
58. Panchal, J.H., Choi, H., Shepherd, J., Allen, J.K., McDowell, D.L., and Mistree, F.,
“A Strategy for Simulation-Based Design of Multiscale, Multi-functional Products
and Associated Design Processes,” Proceedings of the ASME International Design
Engineering Technical Conferences and Computers and Information in
Engineering Conference - DETC2005, v 2 B, Proceedings of the ASME
International Design Engineering Technical Conferences and Computers and
Information in Engineering Conferences - DETC2005: 31st Design Automation
Conference, 2005, pp. 845-857.
59. Seepersad, C.C., Allen, J.K., McDowell, D.L., and Mistree, F., “Robust Design of
Cellular Materials with Topological and Dimensional Imperfections,” 31st Design
Automation Conference, 2005 ASME International Design Engineering Technical
Conferences, Long Beach, California, September 24-28, 2005.
60. Spearot, D.E., Jacob, K.I., and McDowell, D.L., “Molecular Dynamics Simulations
of Dislocation Nucleation from Bicrystal Interfaces in FCC Metals,” 2005 ASME
International Mechanical Engineering Congress and Exposition, Orlando, Florida,
November 5-11, 2005. 61. Tschopp, M.A. and McDowell, D.L., “Microrotation-Augmented Energy-
Minimization for Generating Nanocrystalline Cu Structures,” 2005 ASME
International Mechanical Engineering Congress and Exposition, Orlando, Florida,
November 5-11, 2005.
62. Kumar, R.S. and McDowell, D.L., “Design of Functionally Graded Cellular
Materials for Heat Dissipation,” 2005 ASME International Mechanical Engineering
Congress and Exposition, Orlando, Florida, November 5-11, 2005.
63. Zhang, M., Mayeur, J., McDowell, D.L., and Neu, R.W., “Three dimensional
crystal plasticity simulation of fretting fatigue of Ti-6Al-4V,” 2005 ASME
International Mechanical Engineering Congress and Exposition, Orlando, Florida,
November 5-11, 2005.
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64. Mayeur, J., McDowell, D.L., and Neu, R.W., “Microstructural Representation and
its Effect on Prediction of Plastic Ratcheting During Fretting Fatigue,” 2005 ASME
International Mechanical Engineering Congress and Exposition, Orlando, Florida,
November 5-11, 2005. 65. Shepherd, J.E., McDowell, D.L., and Jacob, K.I., “Multiscale Evolution of
Entanglements and Macroscale Effects,” 2005 ASME International Mechanical
Engineering Congress and Exposition, Orlando, Florida, November 5-11, 2005.
66. Cochran, J., Clark, J., McDowell, D.L., Sanders, T.H.B., and Thadhani, N., “Linear
Cellular Alloys in Lightweight Steels and Composites: Fabrication, Quasi-static and
Dynamic Properties,” MRS Fall Meeting, Boston, MA, November 28, 2005.
67. Austin, R.A., McDowell, D.L., and Benson, D.J., “Shock Compression of Ni+Al
Particle Systems: Modeling and Simulation,” Symp. On Dynamic Behavior of
Materials: Mechanical Properties, TMS Annual Meeting and Exhibition, Orlando,
FL, Feb. 25-March 1, 2007. 68. Spearot, D.E., McDowell, D.L., and Jacob, K.I., Atomistic simulation of dislocation
nucleation from grain boundaries in FCC metals, presented at: The 7th World
Congress on Computational Mechanics, Los Angeles, CA, July 16-22, 2006.
69. McDowell, D.L, Shenoy, M.M., Zhang, M. and Zhang, J., “Simulation-Based
Strategies for Microstructure-Sensitive Cyclic Plasticity and Fatigue Modeling,”
Plasticity 2006, Halifax, Nova Scotia, July 17-22, 2006.
70. Zhang, M., Zhang, J., and McDowell, D.L., “Microstructure-scale Modeling of
Mechanical Deformation of Ti-6Al-4V Based on Computational Crystal Plasticity,
“43rd Annual Technical Meeting of the Society of Engineering Science, Penn State,
State College, PA, August 13-16, 2006.
71. Austin, R.A., Eakins, D., McDowell, D.L., Thadhani, N.N. and Benson, D.J.,
“Shock Compression of Ni+Al Particle Systems Part II: Modeling and Simulation,”
Symp. on Dynamic Behavior of Materials, TMS Annual Meeting & Exhibition,
Orlando, FL, Feb. 25-March 1, 2007.
72. Allen, J.K., Muchnick, H., Messer, M., McDowell, D.L. and Mistree, F., Simulation
and Template-Based Robust Design of Blast Resistant Panels, 17th US Army
Symposium on Solid Mechanics, Baltimore, MD, April 4, 2007.
73. Xue, Y., Wright, A., Solanki, K., Horstemeyer, M.F., and McDowell, D.L.,
“Micromechanical Simulation of Cyclic Plasticity at Inclusion Particles with Pre-
over Straining,” 48th AIAA Structural Dynamics and Materials Conference,
Honolulu, Hawaii, April 23-26 2007.
74. Tschopp, M.A. and McDowell, D.L. “Atomistic simulations of dislocation
nucleation in asymmetric tilt grain boundaries,” Plasticity 2007, Girdwood, Alaska,
USA, June 2-6, 2007.
75. Tjiptowidjojo, Y., Shenoy, M. and McDowell, D.L., “Microstructure-sensitive
constitutive models for Ni-base superalloys,” Plasticity 2007, Girdwood, Alaska,
USA, June 2-6, 2007.
76. Austin, R.A., McDowell, D.L, Horie, Y., and Benson, D.J., “A Study of Reactant
Interfaces in Ni+Al Particle Systems During Shock Wave Propagation,” 15th APS
Topical Conference on Shock Compression of Condensed Matter, Kohala Coast,
Hawaii, June 24–29, 2007.
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77. Prasannavenkatesan, R. and McDowell, D.L., “Effect of Residual Stresses on
Fatigue Crack Nucleation at Nonmetallic Primary Inclusions in High Strength
Steels,” ASME Applied Mechanics and Materials Conference, Austin, TX. June 3-
7, 2007. 78. DiPrima, M., Lesniewski, M., Gall, K., McDowell, D.L., Sanderson, T., and
Campbel, D., “Characterization of Epoxy Shape Memory Foams,” 44th Annual
Technical Meeting, Society of Engineering Science, October 21-24, 2007.
79. Prasanna, R. and McDowell, D.L., “A Micromechanical Approach to Model
Residual Stress Relaxation and Fatigue Crack Nucleation in High Strength Gear
Steels,” ASME International Mechanical Engineering Congress and Exposition
Seattle, Washington, November 10-15, 2007.
80. Alley, E.S., Prasanna, R., Neu, R.W., and McDowell, D.L., “Modeling Rolling
Contact Fatigue of Bearing Steels with Inclusions,” 14th International Symposium
on Plasticity and Its Current Applications, Kona, Hawaii, Jan. 3-8, 2008.
81. Zhang, M., McDowell, D.L., and Neu, R.W., “Microstructure-based Modeling:
Application to Fretting Fatigue,” 14th International Symposium on Plasticity and Its
Current Applications, Kona, Hawaii, Jan. 3-8, 2008.
82. Tschopp, M.A., Medlin, D. and McDowell, D.L., “Dislocation Nucleation at the
Vicinal Coherent Twin in FCC Cu and Al” TMS 2008 Symposium on Deformation
Twinning, New Orleans, LA, March 9-13, 2008.
83. Xue, Y., Jordon, J.B., Horstemeyer, M.F., McDowell, D.L., and Newman, J.
“Prognosis for structural health prognosis using mechanistic multistage fatigue
model,” Int. Conf. on Fatigue Damage of Structural Materials VII, Hyannis, MA,
Sept. 14-19, 2008.
84. Tschopp, M.A., Tucker, G., and McDowell, D.L., “Overview of Recent Results in
Simulation of Dislocation Nucleation,” poster, MS&T ’08, Pittsburgh, PA, Oct. 5-9,
2008.
85. DiPrima, M., Gall, K., McDowell, D.L., Sanderson, T., Arzberger, S. and
Campbell, D., “Characterization of the Damage Mechanisms in Epoxy Shape
Memory Polymer Foam during Cyclic Deformation,” Symp. on Polymer-Based
Smart Materials-Process, Properties, and Application, MRS Fall Meeting, Boston,
MA, Dec. 5, 2008.
86. Tschopp, M.A. and McDowell, D.L., “Tension-Compression Asymmetry in
Homogeneous Dislocation Nucleation in Single Crystal Copper,” Plasticity 2009,
the 15th International Symposium on Plasticity and its Current Applications, St.
Thomas, Virgin Islands, January 3-8, 2009.
87. Mayeur, J., Bammann, D.J., and McDowell, D.L., “A Micropolar Model of Crystal
Plasticity with Enhanced Description of Grain Boundaries,” Plasticity 2009, the 15th
International Symposium on Plasticity and its Current Applications, St. Thomas,
Virgin Islands, January 3-8, 2009.
88. Alley, E.S., Prasannavenkatesan, R., Neu, R.W., and McDowell, D.L., “A
Micromechanical Model with Crystal Plasticity and Phase Transformation in 41100
Steel,” Plasticity 2009, the 15th International Symposium on Plasticity and its
Current Applications, St. Thomas, Virgin Islands, January 3-8, 2009.
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89. Zimmerman, J.A., Tucker, G.J. and McDowell, D.L., “Atomic-Scale Deformation
Kinematics for Simulations of Dislocation Nucleation and Bicrystal Grain
Boundary Evolution,” TMS 2009 Annual Meeting, San Francisco, CA, February
15-19, 2009.
90. Przybyla, C., Prasannavenakatesan, R., Salajegheh, N., and McDowell, D.L.,
“Microstructure-Sensitive Modeling of High Cycle Fatigue,” TMS 2009 Annual
Meeting, San Francisco, CA, February 15-19, 2009.
91. Przybyla, C.P., Salajegheh, N., Luscher, D.J., and McDowell, D.L., “Accounting
for Higher Order Moments of Response Functions to Augment Stereological
Characterization,” MS&T 2009, Pittsburgh, OH, October 26, 2009.
92. Tucker, G.J., Tschopp, M.A., and McDowell, D.L., “Structure and Dislocation
Nucleation in FCC GB Interfaces,” MS&T 2009, Pittsburgh, OH, October 28, 2009.
93. Prasannavenakatesan, R. and McDowell, D.L., “Microstructure-Sensitive Modeling
of High Cycle Fatigue in Gear Steels,” Symposium 12-32, Advances in Fatigue and
Damage, 2009 ASME IMECE, Orlando, FL, Nov. 15-19, 2009.
94. Owolabi, M.G. and McDowell, D.L., “Microstructure-Sensitive Fatigue Design for
Notched Components,” Symposium 12-32, Advances in Fatigue and Damage, 2009
ASME IMECE, Orlando, FL, Nov. 15-19, 2009.
95. Tschopp, M.A., Spearot, D.E., and McDowell, D.L., “Molecular Dynamics
Simulation of Homogeneous Nucleation of Dislocations in Single Crystals,”
Symposium 12-6, Modeling at Atomic/Molecular Scale, 2009 ASME IMECE,
Orlando, FL, Nov. 15-19, 2009.
96. McDowell, D.L., “Global and Local Issues in Modeling Metallic Polycrystals,”
MRS Fall Meeting, Boston, MA, Nov. 30-Dec. 2, 2009.
97. Mayeur, J. and McDowell, D.L., “A Comparison of Micropolar and Slip Gradient-
Based Approaches to Single Crystal Plasticity,” Plasticity 2010, the 16th
International Symposium on Plasticity and its Current Applications, St Kitts Island,
Jan. 3-8, 2010.
98. Luscher, D.J., McDowell, D.L., and Bronkhorst, C., “Essential Features of General
Boundary Conditions for Second-Gradient Homogenization of Statistical Volume
Elements,” Plasticity 2010, the 16th International Symposium on Plasticity and its
Current Applications, St Kitts Island, Jan. 3-8, 2010.
99. Przybyla, C. and McDowell, D.L., “Microstructure-Sensitive Extreme Value
Probabilities of Fatigue in Advanced Engineering,” Plasticity 2010, the 16th
International Symposium on Plasticity and its Current Applications, St Kitts Island,
Jan. 3-8, 2010.
100. Wang, W., Zhong, Y., Tucker, G., Lu, K., Lu, L., McDowell, D.L., and Zhu, T.,
“Dislocation Nucleation, Jerky Flow and Size Effects in Nanoindentation,”
Symposium on Modeling, Simulation and Theory of Nanomechanical Materials
Behavior: Nanoindentation and Contact Mechanics, TMS 2010, Seattle, WA, Feb.
14-18, 2010.
101. Castelluccio, G.M. and McDowell, D.L., “Effect of a deformation band on crack tip
displacement simulations under cyclic loading,” 5th International Conference on
Very High Cycle Fatigue, Berlin, Germany, June 28-30, 2011.
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102. Przybyla, C. and McDowell, D.L., “Microstructure-Sensitive Extreme Value
Probabilities of HCF for Surface vs. Subsurface Crack Formation in Duplex Ti-6Al-
4V, 5th International Conference on Very High Cycle Fatigue, Berlin, Germany,
June 28-30, 2011.
103. Mayeur, J.and McDowell, D.L.,”Nonlocal Crystal Plasticity Simulations of
Bicrystal Deformation,” Plasticity 2011, the 17th International Symposium on
Plasticity and its Current Applications, Puerto-Vallerta, Mexico, Jan. 3-8, 2011.
104. Lloyd, J.T. and McDowell, D.L., “Distinguishing Grain Core and Slip Mantle
Activities,” Plasticity 2011, the 17th International Symposium on Plasticity and its
Current Applications, Puerto-Vallerta, Mexico, Jan. 3-8, 2011.
105. Luscher, D.J., McDowell, D.L., and Bronkhorst, C.A., “Influence of the Coarse-
Scale Boundary Value Problem on Length Scale Parameters for Second Gradient
Continuum Theories,” Plasticity 2011, the 17th International Symposium on
Plasticity and its Current Applications, Puerto-Vallerta, Mexico, Jan. 3-8, 2011.
106. Tucker, G., Tiwari, S. and McDowell, D.L., “Multilevel Atomistic Modeling of
Grain Boundaries and Nanocrystals,” TMS 2011, San Diego, CA, Feb. 27-March 3,
2011.
107. Musinski, W. and McDowell, D.L., “Microstructure-Sensitive Probabilistic Fatigue
Modeling of Notched Components,” TMS 2011, San Diego, CA, Feb. 27-March 3,
2011.
108. Huang, S., McDowell, D.L., Zhu, T., “Nano-Chemo-Mechanics of Hydrogen
Embrittlement under Extreme Loading Conditions,” TMS 2011, San Diego, CA,
Feb. 27-March 3, 2011.
109. Patra, A. and McDowell, D.L., “Crystal Plasticity Modeling of Radiation Damage
in BCC Structural Materials,” ANS Annual Meeting, Hollywood, FL, June 26-30,
2011.
110. Zimmerman, J.A., Jones, R.E., Zhou, X., Lloyd, J.T., and McDowell, D.L.,
“Application of an Atomistically-Derived Cohesive Model of Brittle Fracture,” 11th
US National Congress on Computational Mechanics, Minneapolis, MN, July 26,
2011.
111. Mayeur, J.R., Mourad, H.M., Beyerlein, I.J., McDowell, D.L., Bammann, D.J.
"Dislocation-based Micropolar Crystal Plasticity with Evolving Length Scales,"
ASME IMECE, Denver, CO, November 11-17, 2011.
112. Tucker, G.J., Tiwari, S., and McDowell, D.L., “Quantifying Deformation
Mechanisms in Nanocrystalline Metals,” Plasticity 2012, the 18th International
Symposium on Plasticity and its Current Applications, San Juan, Puerto Rico, Jan.
3-8, 2012.
113. Ellis, B., Zhou, M., and McDowell, D.L., “Energy Dissipation and Strength
Evolution of Ultra-High-Performance Fiber-Reinforced Concrete (UHPFRC),” 3rd
International Symposium on Ultra-High Performance Concrete and
Nanotechnology for High Performance Construction Materials (2012 HiPerMat),
Kassel, Germany, March 7-9, 2012.
114. Przybyla, C. and McDowell, D.L., “Computational Indicators for Structure-Fatigue
Property Relations in Ti Alloys,” Symposium on Titanium: Advances in
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Processing, Characterization and Properties: Mechanical Properties, TMS Annual
Meeting 2012, Orlando, FL, March 12-16, 2012.
115. Tucker, G.J., Tewari, S., Zimmerman, J., and McDowell, D.L., “Resolving the
Contribution of Interfaces in the Deformation of Nanocrystalline Copper with
Atomistic Simulations,” TMS Annual Meeting 2012, Orlando, FL, March 12-16,
2012.
116. Song, J. and McDowell, D.L., “Grain Scale Crystal Plasticity Model with Slip and
Microtwinning for a Third Generation Ni-Base Superalloy,” Superalloys 2012,
Champion, PA, Sept. 9-12, 2012, pp. 159-166.
117. Lloyd, J.T. and McDowell, D.L., “Incorporating Limited Slip into Crystal Plasticity
to Improve Stress-Strain and Texture Prediction,” 49th Annual Technical Meeting of
the Society of Engineering Science, Atlanta, GA, October 10-12, 2012.
118. Priddy, M. and McDowell, D.L., “The Use of Crystal Plasticity Finite Element
Method to Investigate Slip and Twinning in Pure Magnesium,” 49th Annual
Technical Meeting of the Society of Engineering Science, Atlanta, GA, October 10-
12, 2012.
119. Patra, A. and McDowell, D.L., “Modeling Localized Deformation in Irradiated
BCC Metals using Continuum Crystal Plasticity,” 49th Annual Technical Meeting
of the Society of Engineering Science, Atlanta, GA, October 10-12, 2012.
120. Xiong, L., McDowell, D.L., and Chen, Y., “Concurrent Atomistic-Continuum
Simulation of Phonon Transport in Silicon,” 49th Annual Technical Meeting of the
Society of Engineering Science, Atlanta, GA, October 10-12, 2012.
121. Ellis, B.D., Zhou, M., and McDowell, D.L., “Multiscale Modeling of Ultra-High-
Performance Fiber-Reinforced Concrete Subject to Blast Loading,” 49th Annual
Technical Meeting of the Society of Engineering Science, Atlanta, GA, October 10-
12, 2012.
122. Tiwari, S., Tucker, G.J., and McDowell, D.L., “Simulated Isosurfaces of Inelastic
Strain and Dissipation in Nanocrystalline Cu,” 49th Annual Technical Meeting of
the Society of Engineering Science, Atlanta, GA, October 10-12, 2012.
123. Tucker, G.J., Tiwari, S., and McDowell, D.L., “Exploring Interfacial-Mediated
Plasticity and the Deformation Mechanisms in Nanocrystalline Materials,” 49th
Annual Technical Meeting of the Society of Engineering Science, Atlanta, GA,
October 10-12, 2012.
124. Ellis, B.D., McDowell, D.L., and Zhou, M., “Design of Ultra-High-Performance
Fiber-Reinforced Concrete to withstand Blast Loading” 49th Annual Technical
Meeting of the Society of Engineering Science, Atlanta, GA, October 10-12, 2012.
125. Castelluccio, G.M. and McDowell, D.L., “Fatigue Stage I/II Transition at a
Microstructural Scale,” 49th Annual Technical Meeting of the Society of
Engineering Science, Atlanta, GA, October 10-12, 2012.
126. Musinski, W. and McDowell, D.L., “Modeling the Effects of Shot-Peened Residual
Stresses on Microstructure-Sensitive Fatigue of Ni-Base Superalloy Components,”
49th Annual Technical Meeting of the Society of Engineering Science, Atlanta, GA,
October 10-12, 2012.
127. Castelluccio, G.M. and McDowell, D.L., “Early Stage Fatigue Life Prediction for
Metallic Polycrystals,” ASME IMECE, Houston, TX, November 11-14, 2012.
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128. Tiwari, S. and McDowell, D.L., “Atomistic Simulation Of Inelastic Dissipation
Surfaces In Nanocrystalline Cu Under Multiaxial Loading,” ASME IMECE,
Houston, TX, November 11-14, 2012.
129. Xiong, L., Chen, Y., and McDowell, D.L., “Concurrent Atomistic-Continuum
Simulation of Dislocation Pinning in Ni, Al and Si Crystals,” ASME IMECE,
Houston, TX, November 11-14, 2012.
130. Xiong, L., Chen, Y., and McDowell, D.L., “Coarse-Grained Atomistic Simulatoin
of Dislocation Loops in Cu, Al and Si Crystals,” ASME IMECE, Houston, TX,
November 11-14, 2012.
131. Patra, A. and McDowell, D.L., “Crystal Plasticity Modeling of Localized
Deformation in Irradiated BCC Metals,” MRS Fall Meeting, Boston, November 26,
2012.
132. Tiwari, S. and McDowell, D.L., “A Defect Avalanche Approach To Characterize
Inelastic Yield and Flow In Nanocrystalline Metals, Poster, TMS 2013 Annual
Meeting and Exhibition, San Antonio, TX, March 3-7, 2013.
133. Priddy, M.W. and McDowell, D.L., “Crystal Plasticity Modeling of Slip and
Twinning in Mg,” Poster, TMS 2013 Annual Meeting and Exhibition, San Antonio,
TX, March 3-7, 2013.
134. Patra, A. and McDowell, D.L., “Mesoscopic Modeling of Dislocation-Defect
Interactions and Flow Localization in Irradiated bcc Metals,” TMS 2013 Annual
Meeting and Exhibition, San Antonio, TX, March 3-7, 2013.
135. Castelluccio, G.M. and McDowell, D.L., “Microstructure-Sensitive Mesoscopic
Modeling of Fatigue Crack Formation and Early Growth in Polycrystals,” TMS
2013 Annual Meeting and Exhibition, San Antonio, TX, March 3-7, 2013.
136. Castelluccio, G.M. and McDowell, D.L., “Variability of the Fatigue Driving Force
within Grains of Polycrystals,” 13th International Conference on Fracture, June 16-
21, 2013, Beijing, China.
137. Castelluccio, G.M. and McDowell, D.L., “Fatigue Life Prediction of Polycrystals
under Multiaxial Straining,” 13th International Conference on Fracture, June 16-21,
2013, Beijing, China.
138. Ellis, B., McDowell, D.L., and Zhou, M., “Design of Ultra-High Performance
Fiber-Reinforced Concrete to Withstand Blast and Impact Loading,” 50th Annual
Technical Meeting of SES, Brown University, Providence, RI, July 31, 2013. 139. Tiwari, S. and McDowell, D.L., “Atomistic Simluation of the Inelastic Yield and
Flow Behavior of Nanocrystalline Cu under Multiaxial Stress States,” 50th Annual
Technical Meeting of SES, Brown University, Providence, RI, July 31, 2013. 140. Li, Y., Zhou, M., and McDowell, D.L., and Zhou, M., “A Multiscale Materials
Design Framework for Predicting Fracture Toughness as a Function of
Microstructure,” 50th Annual Technical Meeting of SES, Brown University,
Providence, RI, July 31, 2013. 141. Austin, R.A. and McDowell, D.L., “A Model of High-Strain-Rate Metal
Viscoplasticity with Application to Powder Shock Compression,” 3rd International
Conference on Material Modeling, Warsaw, Poland, September 8-11, 2013.
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142. Tiwari, S. and McDowell, D.L., “Analyzing Multiaxial Inelastic Yield and Flow in
Nanocrystalline Metals using Molecular Dynamics,” 3rd International Conference
on Material Modeling, Warsaw, Poland, September 8-11, 2013.
143. Luscher, D.J., Mayeur, J., McDowell, D.L., and Bronkhost, C., “Influence of
Length Scale Parameters for Nonlocal Crystal Plasticity on Localization in
Polycrystalline Specimens,” International Conference on Material Modeling,
Warsaw, Poland, September 8-11, 2013.
144. Narayanan, S., Zhu, T. and McDowell, D.L., “Crystal Plasticity Model for BCC
Iron Atomistically Informed by the Kinetics of Correlated Kinkpair Nucleation,”
MS&T ’13, Montreal, Quebec, Canada, October 27-31, 2013.
145. Patra, A., Zhu, T., and McDowell, D.L., “Constitutive Equations for Dislocation
Core Spreading in BCC-Fe Accounting for Dislocation-Dislocation Interactions and
Finite Temperature Effects,” MS&T ’13, Montreal, Quebec, Canada, October 27-
31, 2013.
146. Cochran, J., Daloz, W., Marshall, P., McDowell, D.L., Patra, A., Wedding, C., and
Strbik, O., “Silicon and Boron Containing Composites of Molybdenum Alloyed
with Manganese,” MS&T ’13, Montreal, Quebec, Canada, October 27-31, 2013.
147. Xiong, L., McDowell, D.L., and Chen, Y., “Multiscale Simulations of Phonon-
dislocation Interactions,” ASME IMECE, San Diego, CA, Nov. 18-21, 2013.
148. Castelluccio, G.M. and McDowell, D.L., “Mesoscopic Modeling Fatigue Crack
Formation and Early Growth in 3D Polycrystalline Microstructures,” ASME
IMECE, San Diego, CA, Nov. 18-21, 2013.
149. Li, Y., Zhou, M., and McDowell, D.L., “A multi-scale material design space for
tailoring fracture toughness of polycrystalline metals,” ASME IMECE, San Diego,
CA, Nov. 18-21, 2013.
150. Tiwari, S., Tucker, G.J., and McDowell, D.L., “Pressure Effects and Tension-
Compression Asymmetry in Response of Nanocrystalline Metals,” Plasticity 2014,
Freeport, the Bahamas, January 3-8, 2014.
151. Lloyd, J.T., Clayton, J.D., and McDowell, D.L., “Modeling the Single and
Polycrystalline Shock Response of Aluminum,” Plasticity 2014, Freeport, the
Bahamas, January 3-8, 2014.
152. Narayanan, S., McDowell, D.L., and Zhu, T., “Crystal Plasticity Model for BCC
Iron Atomistically Informed by Kinetics of Correlated Kinkpair Nucleation on
Screw Dislocations,” TMS 2014, San Diego, CA, Feb. 18, 2014.
153. Xu, S., Che, R., Xiong, L., McDowell, D.L., Chen, Y., “A Controlled Stress Energy
Minimization Method for Coarse-grained Atomistic Simulation,” TMS 2014, San
Diego, CA, Feb. 18, 2014.
154. Priddy, M.W. and McDowell, D.L., “Cyclic Loading Experiments and Crystal
Plasticity Modeling of Mg AZ31,” TMS 2014, San Diego, CA, Feb. 19, 2014.
155. Austin, R.A. and McDowell, D.L., “A Physically Based Constitutive Model for the
Viscoplastic Behavior of fcc Pure Metals and Alloys under Shock WaveLoading,”
TMS 2014, San Diego, CA, Feb. 19, 2014.
156. McDowell, D.L., “Modeling Interface Mediated Metal Plasticity at Small Scales,”
ICACM 2014, Multiscale Materials Modeling: Mathematical and Computational
Aspects, Rensselaer Polytechnic Institute, Troy, NY, June 10-11, 2014.
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157. Austin, R.A. and McDowell, D.L., “Constitutive Model of Dynamic Metal
Viscoplasticity with Application to Powder Shock Compression,” U.S. National
Congress on Theoretical and Applied Mechanics, Michigan State University, East
Lansing, MI, June 16-20, 2014.
158. Tiwari, S. and McDowell, D.L., “Pressure and Normal Stress Effects in Yield and
Flow Response of Nanocrystalline Metals,” U.S. National Congress on Theoretical
and Applied Mechanics, Michigan State University, East Lansing, MI, June 16-20,
2014.
159. Xu, S., McDowell, D.L., Che, R., Xiong, L., and Chen, Y., “A quasi-static
concurrent atomistic-continuum implementation for sequential slip-transfer
reactions,” MMM 2014, UC-Berkeley, October 6-10, 2014.
160. Xiong, L., Xiang Chen, X., McDowell, D.L., and Chen, Y., “Concurrent Atomistic-
Continuum Simulation of Dislocation-Interface Reactions in FCC Systems,” TMS
2015, Orlando, FL, March 16-19, 2015.
161. Musinski, W.D. and McDowell, D.L., “Simulating the Effect of Inclusions on
Microstructure-Sensitive HCF/VHCF Life Scatter of Notched Components,” TMS
2015, Orlando, FL, March 16-19, 2015.
162. Musinski, W.D. and McDowell, D.L., “Modeling of Microstructurally Small Crack
Growth through 3D Microstructures Using Crystal Plasticity Finite Element
Simulations,” TMS 2015, Orlando, FL, March 16-19, 2015.
163. Xu, S., McDowell, D.L., Che, R., Xiong, L., and Chen, Y., “A Coarse-Grained
Atomistic Study of the Stability of Nanotwinned Cu Structures,” TMS 2015,
Orlando, FL, March 16-19, 2015.
164. Ellis, B. and McDowell, D.L., “Computational Materials Design via the Inductive
Design Exploration Method (IDEM),” TMS 2015, Orlando, FL, March 16-19,
2015.
165. Tallman, A.E., Blumer, J., Narayanan, S., Zeng, Z., Wang, Y., Zhu, T., and
McDowell, D.L., “Uncertainty Quantification of bcc Fe Single Crystal Plasticity
Using Multi-Model Analysis,” TMS 2015, Orlando, FL, March 16-19, 2015.
166. Xu, S., Che, R., Xiong, L., McDowell, D.L., and Chen, Y., “Plastic Behavior of
Single Crystal Gold Pillars up to the Micron Scale by Coarse-Grained Simulation,”
TMS 2015, Orlando, FL, March 16-19, 2015.
167. Liming Xiong, L., Chen, X., McDowell, D.L., and Chen, Y., “Size Effects of
Coarse Graining on Dislocation Mobility in FCC Crystals,” TMS 2015, Orlando,
FL, March 16-19, 2015.
168. Tiwari, S. and McDowell, D.L., “Influence of Pressure on the Shear Strength of
Symmetric Tilt Interfaces in Cu,” TMS 2015, Orlando, FL, March 16-19, 2015.
169. Lloyd, J., McDowell, D.L., and Clayton, J.D., “Dislocation-based Simulations
Quantifying the Effect of Ordered Texture and Grain Size Variations on the Shock
Response of Aluminum,” Mach Conference 2015, Annapolis, MD, April 8-10,
2015.
170. Tschopp, M.A., Coleman, S., and McDowell, D.L., “Engineering Interfaces at the
Nanoscale for Polycrystalline Design,” MS&T 2015, Columbus, OH, October 7,
2015.
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171. Tallman, A.E., Zeng, Z., Sobie, C., Wang, Y., Capolungo, L., Zhu, T., and
McDowell, D.L., “Bottom-Up and Top-Down Uncertainty Quantification of bcc Fe
Plasticity and Dislocation-Interstitial Loop Interactions,” MS&T 2015, Columbus,
OH, October 8, 2015.
172. Xu, S., Xiong, L., Chen, Y., and McDowell, D.L., “Dislocation Multiplication from
Frank-Read Source in Coarse-Grained Atomistic Models,” SES 2015, Texas A&M,
College Station, TX, Oct. 26-28, 2015.
173. McDowell, D.L., ““Mesoscale Modeling of Metal Plasticity to Support Durability
Assessment,” Plasticity 2016, Kona, HI Jan.3-9, 2016.
174. Xiong, L., Rigelesaiyin, J., Chen, X., Xu, S., McDowell, D.L., and Chen, Y.,
“Quantifications of the Complex Dynamics of Fast Moving Dislocations in
Heterogeneous Materials by a Concurrent Atomistic-Continuum Method,”
Plasticity 2016, Kona, HI Jan.3-9, 2016.
175. Castelluccio, G.M., McDowell, D.L., Zhu, T., and Geller, C.B., “Mesoscale- and
Environment-Sensitive Cyclic Crystal Plasticity,” Plasticity 2016, Kona, HI Jan.3-9,
2016.
176. Xiong, L., Rigelesaiyin, J., Chen, H., Chen, X., Xu, S., Levitas, V., McDowell,
D.L., and Chen, Y., “Concurrent Atomistic-Continuum Simulation of Interactions
between Dislocations and Phase Transformations,” Plasticity 2016, Kona, HI Jan.3-
9, 2016.
177. Xu, S., Xiong, L., Chen, Y. and McDowell, D.L., “Cross Slip at a Screw
Dislocation Pile-up: A Concurrent Atomistic-continuum Study,” TMS 2016,
Nashville, TN., Feb. 14-18, 2016.
178. Xu, S., Xiong, L., Chen, Y. and McDowell, D.L., “Concurrent Atomistic-
continuum Simulations of Sequential Slip Transfer of Curved Dislocations across
Grain Boundaries,” TMS 2016, Nashville, TN., Feb. 14-18, 2016.
179. McDowell, D.L., Capolungo, L., and Zhu, T., “Considering the Role of Kinetics in
Computational Materials Discovery and Development, TMS 2016, Nashville, TN.,
Feb. 14-18, 2016.
180. Tschopp, M., Coleman, S., and McDowell, D.L., “Atomistic Modeling of Structure-
Property Relationships in Grain Boundaries,” TMS 2016, Nashville, TN., Feb. 14-
18, 2016.
181. Xiong, L., Rigelesaiyin, J., Chen, Shuozhi, X., McDowell, D.L., and Chen, Y.,
“Quantifying the Dynamics of Fast Moving Dislocations in Crystalline Materials
from Atomistic to the Microscale,” MRS Spring Meeting, Phoenix, AZ, March 31,
2016.
182. Blumer, J., Wang, Y., and McDowell, D.L., “A Bayesian Approach for Multiscale
Model Validation with Imprecise Probability,” MRS Spring Meeting, Phoenix, AZ,
March 30, 2016.
183. Sobie, C., McDowell, D.L., Martinez, E., and Capolungo, L., Thermal Activation of
Dislocations in Large Scale Obstacle Bypass, 2016 Computer Simulation of
Radiation Effects in Solids, Loughborough, UK, June 19-24, 2016.
184. McDowell, D.L., “Multiscale Crystal Plasticity Modeling for Metals Under
Extreme Conditions,” IUTAM Symposium on Integrated Computational Structure-
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Modeling of Deformation and Failure under Extreme Conditions, Baltimore, MD,
June 20-22, 2016.
185. McDowell, D.L., “Microstructure-Sensitive Computatational Fatigue Assessment,”
UM Center for Predictive Integrated Structural Materials Science (PRISMS)
Workshop, University of Michigan, Ann Arbor, August 18-19, 2016.
186. Mayeur, J.R. and McDowell, D.L., “Study of Two Approaches to Higher-Order
Single Crystal Plasticity,” ICTAM 2016, Montreal, Canada, August 21-26, 2016.
187. McDowell, D.L., “Microstructure-Sensitive Computational Fatigue Modeling,”
Keynote lecture, Int. Conference on Fatigue Damage of Structural Materials XI,
Hyannis, MA, September 19-21, 2016.
188. Xu, S., McDowell, D.L., Xiong, L., and Chen, Y., “Recent Progress in the
Concurrent Atomistic-Continuum Method and Its Applications to Nano- and
Microscale Metal Plasticity,” MS&T 2016, Salt Lake City, UT, Oct. 23-27, 2016.
189. McDowell, D.L., Priddy, M.W., Weaver, J., Paulson, N., Mohan, S., Kalidindi,
S.R., and Shih, D., “Practical Methodology for Inverse Design Exploration of
Fatigue Resistant Ti Alloys,” MS&T 2016, Salt Lake City, UT, Oct. 23-27, 2016.
190. McDowell, D.L., “Challenges and Opportunities for Simulation-Assisted Design of
Metallic Materials,” ASME IMECE, Phoenix, AZ, November 15, 2016.
191. Song, J., Zhou, X., Marchand, Zhu, T., and McDowell, D.L., “Chemomechanical
Origin of Hydrogen Trapping at Grain Boundaries,” ASME IMECE, Phoenix, AZ,
November 14-17, 2016.
192. Xiong, L., Rigelesaiyin, J., Xu, S., McDowell, D.L., and Chen, Y., “Multiscale
Modeling and Simulation of Phase Transformations Assisted by the Dislocation
Pile-ups in Multilayered Metallics Composites,” ASME IMECE, Phoenix, AZ,
November 14-17, 2016.
193. Tallman, A.E., Swiler, L., Wang, Y. and McDowell, D.L., “Model Uncertainty
Quantification and Calibration Data Volume in bcc Fe Crystal Plasticity,” SIAM
Conference on Computational Science and Engineering, Atlanta, GA, Feb. 27,
2017.
194. Xu, S., McDowell, D.L., Xiong, L., and Chen, Y., “A Concurrent Atomistic-
Continuum Study of Sequential Slip Transfer of Curved Dislocations across Grain
Boundaries,” TMS 2017, San Diego, Feb. 27-March 1, 2017.
195. Xu, S., Xiong, L., Chen, Y. and McDowell, D.L., “A New Implementation of the
Concurrent Atomistic-Continuum Method with Quasistatic Algorithms and Mesh
Refinement Schemes,” MRS, Phoenix, AZ, April 19, 2017.
196. Xu, S., Xiong, L., Chen, Y. and McDowell, D.L., “A Concurrent Atomistic-
Continuum Sstudy of Sequential Slip Transfer of Curved Dislocations across Tilt
Grain Boundaries,” MRS, Phoenix, AZ, April 19, 2017.
197. Xu, S., Xiong, L., Chen, Y. and McDowell, D.L., “Concurrent Atomistic-
Continuum Ssimulations of Sequential Dislocation/Obstacle Interactions in Face-
Centered Cubic Metals,” MRS, Phoenix, AZ, April 19, 2017.
198. Xu, S., Xiong, L., Chen, Y. and McDowell, D.L., “Advancements and Applications
of the Concurrent Atomistic-Continuum Method in Plasticity of Face-Centered
Ccubic Metals,” MRS, Phoenix, AZ, April 18, 2017.
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199. Ferri, B.A., Dwivedi, S., and McDowell, D.L., “One-Dimensional Simulations for
Spall in Metals with Intra- and Inter-Grain Failure Models,” APS SCCM, St. Louis,
MO, July 9, 2017 (poster presentation).
200. Ferri, B.A., Dwivedi, S., and McDowell, D.L., “One-Dimensional Simulations for
Spall in Metals with Intra- and Inter-Grain Failure Models,” APS SCCM, St. Louis,
MO, July 10, 2017 (oral presentation).
201. Tallman, A., Bishop, J., Swiler, L., Wang, Y., and McDowell, D.L.,
“Microstructural Variability Constrained Uncertainty Propagation in the
Hierarchical Multiscale Modeling of Cartridge Brass,” Symposium on Data and
Tools for Materials Discovery and Design – Materials Information Infrastructure,
MS&T 2017, Pittsburgh, PA, Oct. 9-11, 2017.
202. Paulson, N., Priddy, M., McDowell, D.L., and Kalidindi, S.R., “Efficient Protocols
for Ranking the Transition Fatigue Performance of Polycrystalline Materials,”
Symposium on Data and Tools for Materials Discovery and Design – Materials
Information Infrastructure, MS&T 2017, Pittsburgh, PA, Oct. 9-11, 2017.
203. Xiong, L., Rigelesaiyin, J., Xu, S., Chen, Y., and McDowell, D.L., “Dynamic
Aspects of the Dislocation-Obstacle Interactions from the Atomic to the
Microscale,” ASME IMECE, Tampa, FL, Nov. 3-9, 2017.
204. Chen, X., Li, W., Xiong, L., Li, Y., Yang, S., Zheng, Z., McDowell, D.L., and
Chen, Y., “Ballistic-diffusive Phonon Heat Transport across Grain Boundaries,”
ASME IMECE, Tampa, FL, Nov. 3-9, 2017.
205. Chen, X., Xiong, L., McDowell, D.L., and Chen, Y., “Effect of Phonon-Dislocation
Interaction on the Mobility of Dislocations,” ASME IMECE, Tampa, FL, Nov. 3-9,
2017.
206. Paulson, N., Priddy, M., McDowell, D.L., and Kalidindi, S.R., “A Data Science
Framework for Reduced-order Microstructure-sensitive Rank Ordering of Fatigue
Performance,” TMS 2018, Phoenix, AZ, March 12-16, 2018.
207. Xu, S. Payne, T. Startt, J., Deo, C, and McDowell, D.L., “Uniaxial Deformation of
Nanotwinned Nanopillars/Nanotubes in Bodycentered Cubic Tungsten,” TMS
2018, Phoenix, AZ, March 12-16, 2018.
208. Xu, S., McDowell, D.L., and Beyerlein, I., “Multiscale Simulations of Sequential
Dislocation/Obstacle Interactions in FCC Metals,” TMS 2018, Phoenix, AZ, March
12-16, 2018.
209. Xu, S. Payne, T. Chen, H., Liu, Y., Xiong, L., Chen, L., and McDowell, D.L.,
“PyCAC: The Concurrent Atomistic-Continuum Simulation Environment,” TMS
2018, Phoenix, AZ, March 12-16, 2018.
210. Paulson, N., McDowell, D.L., Priddy, M., and Kalidindi, S.R., “Stopka, K.,
Whelan, G., Gu, T., Muth, A., and McDowell, D.L., “A Novel Framework for
Reduced-Order Linkages between Microstructures and Fatigue Performance,”
Fatigue 2018, 12th International Fatigue Congress, Poiters Futurescope, France,
May 27-June 1, 2018.
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D4. Invited Seminar Presentations
1. "Multiaxial Nonproportional Cyclic Deformation," University of Illinois at Urbana-
Champaign, August 1980.
2. "Multiaxial Fatigue," University of Illinois at Urbana-Champaign, March 1981.
3. "Transient Nonproportional Cyclic Plasticity," University of Illinois at Urbana-
Champaign, August 1982.
4. "A Study of Cyclic Hardening Behavior Under Nonproportional Loading," Sandia
National Laboratories, Albuquerque, New Mexico, January 1983.
5. "Cyclic, Transient Response of Metals to Nonproportional Loading," Sandia
National Laboratories, Livermore, California, January 1983.
6. "A Study of Cyclic Hardening Behavior Under Nonproportional Loading," Iowa
State University, January 1983.
7. "Transient Nonproportional Cyclic Plasticity," Georgia Tech, February 1983.
8. "Transient Nonproportional Cyclic Plasticity," University of Houston, February
1983.
9. "A Two Surface Plasticity Theory for Nonproportional Cyclic Loading," Georgia
Tech, April 1984.
10. "A Study of Multiaxial Fatigue of a Notched Component," Universite de
Compeigne, Compeigne, France, May 1984.
11. "Description of Nonproportional Cyclic Response," Oak Ridge National
Laboratory, July 1984.
12. "Experimentally Motivated Rate-Independent and Rate-Dependent Cyclic Inelastic
Constitutive Laws," College of Engineering Structural Mechanics Seminar,
Centennial Colloquium Series, Georgia Tech, February 1986.
13. "Experimental Studies of Cyclic Elastic-Plastic Constitutive Model Structures,"
Georgia Tech FFRL Seminar, March 1986.
14. "Continuum Anisotropic Creep Damage Mechanics," Georgia Tech FFRL Seminar,
April 1986.
15. "Creep-Dominated, Damage-Coupled Cyclic Viscoplasticity," Oak Ridge National
Laboratory, October 1986.
16. "Fracture and Fatigue Research at Georgia Tech," ASME Local Chapter, December
1, 1986.
17. "Fracture and Fatigue Research at Georgia Tech," ASM Local Chapter, January 26,
1987.
18. "Fracture and Fatigue Research at Georgia Tech," Aerospace Technology
Symposium, AIAA, Atlanta Section, February 28, 1987.
19. "Developments in Two Surface Plasticity Theory", Rensselaer Polytechnic Institute,
September 22, 1987.
20. "Developments in Two Surface Plasticity Theory", Cornell University, September
23, 1987.
21. "Developments in Two Surface Plasticity Theory", Brown University, September
28, 1987.
22. "Developments in Two Surface Plasticity Theory", Texas Instruments, Inc.,
Attleboro, MA, September 29, 1987.
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23. "Recent Developments in Two Surface Plasticity Theory," Ford Motor Co.,
Scientific Research, Dearborn, MI, April 11, 1988.
24. "Further Developments in Two Surface Plasticity," Georgia Tech Materials
Engineering Seminar, April 19, 1988.
25. "Fundamental Aspects of Bounding Surface Viscoplasticity," Georgia Tech
Structural Mechanics Seminar, March 2, 1989.
26. "Bounding Surface Thermoplasticity/Thermoviscoplasticity," University of
Tennessee Department of Engineering Science and Mechanics, December 4, 1989.
27. "Nonlinear Kinematic Hardening Theories at Finite Strain," Mechanics and
Structural Analysis Divisions, Sandia National Laboratories, Livermore, CA,
September 5, 1990.
28. "Improved Modeling of Solder Joints in Electronic Applications," Georgia Tech
Manufacturing Research Center Industrial Advisory Board Meeting, September 24,
1990.
29. "Bounding Surface Thermoplasticity and Thermoviscoplasticity," Rockwell
International Science Center, Thousand Oaks, CA, March 6, 1991.
30. "A Perspective on Multi-Surface Plasticity Theories," University of Texas-Austin,
Aerospace and Applied Mechanics, November 26, 1991.
31. "Micromechanical Modelling of Cast Al Alloys," Ford Motor Co., Danou Technical
Center, Dearborn, MI, March 10, 1992.
32. "Modeling Void Growth in Cold Formable Steel," IRSID, St. Germane En Laye,
France, September 4, 1992.
33. "A Phenomenological Framework for Porous Inelasticity with Cyclic and Textural
Anisotropy Capabilities," Colloquia on Modern Topics in Mechanics, R.R.
McCormick School of Engineering and Applied Science, Northwestern
University, Evanston, IL, October 9, 1992.
34. "Substructure and Porosity Considerations for Modeling Finite Strain Inelasticity of
Metals," Aberdeen Proving Grounds, July 13, 1993.
35. "The Modeling of Ratchetting Effects in Cyclic Plasticity," Vanderbilt University,
October 22, 1993.
36. "Anisotropy at Large Strains," IRSID, Saint Germaine En Laye, France, June 3,
1994.
37. "Multiaxial Effects in Metallic Materials," Cornell University, Sibley School of
Mechanical Engineering, February 14, 1995.
38. "Anisotropy and Compressibility Effects of FCC Polycrystals at Large Strain,"
Georgia Tech Institute-Wide Materials Seminar Series, April 18, 1995.
39. "Multiaxial Effects on the Evolving Internal State of Metallic Materials," Florida
State University, College of Engineering, April 25, 1995.
40. "Multiaxial Effects on the Evolving Internal State of Metallic Materials," University
of Nebraska-Lincoln, Dept. of Engineering Science and Mechanics, July 25, 1995.
41. "ISV Approaches for Finite Strain Viscoplasticity," U.S. Army Research
Laboratory, Aberdeen, MD, January 23, 1996.
42. "Deformation Path, Temperature and Strain Rate History Effects in OFHC Cu,"
Sandia National Laboratories, Livermore, CA, December 4, 1996.
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43. "Modeling Multiscale Phenomena with Internal State Variables," Dept. of
Mechanical Engng., Clemson University, Clemson, SC, January 24, 1997.
44. "Observations and Mechanics of Small Fatigue Cracks in Metallics," Lockheed-
Martin Corp., Marietta, GA, March 26, 1997.
45. “Deformation, Rate and Temperature History Effects: Implications for ISV
Models,” Sandia National Laboratories, Livermore, CA, July 30, 1997.
46. “Constitutive Equations and Length Scales in Solids,” University of Michigan,
Midwest Mechanics Lecture Series, February 16, 1998.
47. “Polycrystal Plasticity and Subgrain Heterogeneity,” Michigan State University,
Midwest Mechanics Lecture Series, February 17, 1998.
48. “Constitutive Equations and Length Scales in Solids,” Northwestern University,
Midwest Mechanics Lecture Series, February 18, 1998.
49. “Polycrystal Plasticity and Subgrain Heterogeneity,” University of Wisconsin-
Madison, Midwest Mechanics Lecture Series, February 19, 1998.
50. “Constitutive Equations and Length Scales in Solids,” University of Minnesota,
Midwest Mechanics Lecture Series, February 20, 1998.
51. “Constitutive Equations and Length Scales in Solids,” Johns Hopkins University,
Dept. of Mechanical Engineering, April 2, 1998.
52. “ISV Relations for Solids,” Sandia National Laboratories, Livermore, CA, July 7,
1998.
53. “Some Comments on Averaging Approaches for Multiscale Internal State Variable
Constitutive Equations,” Technische Universität München, Germany, September 1,
1998.
54. “Mechanical Behavior of a Ni-Ti Shape Memory Alloy under Axial-Torsional
Proportional and Nonproportional Loading,” Midwest Mechanics Lecture Series,
Dept. of Aerospace and Mechanical Engineering, University of Notre Dame, Nov.
3, 1998.
55. “Polycrystal Plasticity and Subgrain Heterogeneity,” Midwest Mechanics Lecture
Series, Illinois Institute of Technology, Nov. 4, 1998.
56. “Length Scales and Evolution of Structure in Solids,” Midwest Mechanics Lecture
Series, University of Illinois at Urbana-Champaign, Nov. 5, 1998.
57. “Length Scales and Evolution of Structure in Solids,” Midwest Mechanics Lecture
Series, Purdue University, Nov. 6, 1998.
58. “Structural Fatigue Investigation,” Integrated Predictive Diagnostics, a forum for
Industry and Government, Georgia Tech, September 15, 1999.
59. “Overview of Metals Research in the Paden Chair at Georgia Tech,” Technische
Universität München, Germany, May 23, 2000.
60. “Micromechanics of High Cycle Fatigue,” Texas A&M, Dept. Mechanical
Engineering, November 29, 2000.
61. “Experimental Evidence of Length Scale Effects,” Workshop on Nonlocal Effects
in Solid Mechanics, Sandia National Laboratories, Livermore, CA, July 9, 2001.
62. “Internal State Variable Models and Length Scales,” Workshop on Nonlocal Effects
in Solid Mechanics, Sandia National Laboratories, Livermore, CA, July 9, 2001.
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63. “Self-Organization Aspects of Nonlocal Field Models,” Workshop on Nonlocal
Effects in Solid Mechanics, Sandia National Laboratories, Livermore, CA, July 10,
2001.
64. “Computational Modeling of Plasticity and Fracture at Microstructure Scales,”
invited seminar, ICASE, NASA Langley Research Center, Hampton, VA,
November 28, 2001.
65. “Multifunctional Linear Cellular Materials – Structures and Thermal Management,”
GE Aircraft Engines, Evendale, OH, November 21, 2002 (with J. Cochran).
66. “An Interactive, Distributed, Computational Environment for the Design of Multi-
Functional Materials and Processes,” NASA Langley Research Center, May 1, 2003
(with F. Mistree).
67. “Multifunctional Linear Cellular Materials: Thermal, Structural, Electronic, &
Energetic Devices,” General Electric Power Systems Division, Greenville, SC, May
16, 2003 (with J. Cochran, J. Lee and T. Sanders).
68. “Behavior and Design of Prismatic Cellular Materials,” Department of Mechanical
and Industrial Engineering, University of Illinois at Urbana-Champaign, December
2, 2003.
69. “Multiscale Modeling of Defects and Heterogeneities,” ENSAM, Metz, France,
March 5, 2004.
70. “Hierarchical Modeling and Design of Materials,” Department of Materials Science
and Engineering, University of Virginia, March 29, 2004.
71. “Modeling and Design of Prismatic Cellular Materials,” Institute of Solid
Mechanics, Failure Mechanics Laboratory, Ministry of Education, Tsinghua
University, Beijing, China, June 28, 2004.
72. “Modeling and Design of Prismatic Cellular Materials,” University of Baltimore-
Maryland County, December 3, 2004.
73. “Designing Multifuntional Materials - An Opportunity to Collaborate?,” Georgia
Institute of Technology, Tribology Group Seminar, December 7, 2004 (with F.
Mistree and J.K. Allen)
74. “Advances in Applications of Metal Plasticity,” The Ohio State University, January
28, 2005.
75. “NSF I/UCRC on Computational Materials Design,” Dana Corporation, Toledo,
OH, February 25, 2005.
76. “Modeling and Design of Prismatic Cellular Materials,” U.S. Army Research
Laboratory, Aberdeen, MD, April 14, 2005.
77. “NSF I/UCRC on Computational Materials Design,” U.S. Army Research
Laboratory, Aberdeen, MD, April 14, 2005.
78. “A Perspective on Trends in Engineering Education,” Jack M. Zeigler Outstanding
Educator Award Lecture, GWW School of Mechanical Engineering, April 28,
2005.
79. “Fatigue Analysis of Hierarchical Microstructures,” ONR D3D Research Consortia
Kickoff Meeting, Arlington, VA, April 29, 2005.
80. “Fretting Fatigue of Ti-5Al-4V: A Micromechanical Approach,” Ecole des Mines,
Evry, France, May 20, 2005.
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81. “Applications and New Directions in Metal Plasticity,” Imperial College, London,
May 23, 2005.
82. “Applications and New Directions in Metal Plasticity,” University of Troyes,
Troyes, France, May 26, 2005.
83. “Design of Materials: Implications for Micromechanics,” University of Metz,
LPMM, Metz, France, May 27, 2005.
84. “Robust Design of Materials,” University of Alabama-Birmingham, Dept. of
Materials Science and Engineering, November 15, 2005.
85. “Vision for Computational Materials Design,” QuesTek Corp. LLC, Chicago, IL,
March 21, 2006.
86. “Robust Design of Materials,” Mississippi State University, Dept. of Mechanical
Engineering and CAVS, March 23, 2006.
87. “Robust Design of Materials,” University of Nebraska-Lincoln, Dept. of
Engineering Science and Mechanics,April 4, 2006.
88. “Energetic Materials Modeling and Design,” USAF WPAFB/ML, Dayton, OH,
April 10, 2006.
89. “NSF I/UCRC on Computational Materials Design,” AEDC, Tullahoma, TN, May
22, 2006.
90. “A Georgia Tech Vision for Computational Materials Design,” ORNL,
Computational Material Sciences Division, Oak Ridge, TN, August 30, 2006.
91. “Materials Design” A Collaborative Venture,” Abbott Laboratories, Sunnyvale,
CA, December 15, 2006.
92. “Materials Design” A Collaborative Venture,” Proctor and Gamble, Cincinnati, OH,
January 24, 2007.
93. “Materials Design within the Center for Computational Materials Design
(CCMD),” US Air Force Materials Research Laboratory, Wright Patterson AFB,
Dayton, OH, April 16, 2007.
94. “Uncertainty in Multilevel, Distributed Materials Design,” NAE National Materials
Advisory Board meeting on Integrated Computational Materials Engineering
(ICME), May 29-30, 2007, Beckman Center, Irvine, CA.
95. “Materials Design at Georgia Tech: An Overview,” Metallurgical and Materials
Department, IIT Kharagpur, India, December 10, 2007.
96. “Microstructure-Sensitive Modeling of Fatigue Processes: Phenomena and
Methods,” Bettis Atomic Power Laboratory, Pittsburgh, PA, January 24, 2008.
97. “Physically-Based Modeling in State-Awareness Monitoring Strategies,” AFOSR
Workshop on Prognosis of Aircraft and Space Devices, Components, and Systems,
University of Cincinnati, Cincinnati, OH, Feb. 19-20, 2008.
98. “Design of Higher Service Temperature Disk Materials: Some 6.1 Research
Needs,” Workshop on 1450 F Disk Design Program, AFOSR, Dayton, OH, March
3, 2008.
99. “Mechanistic Modeling of Cyclic Deformation with Dwell Times in Ni-Base
Superalloys,” MAI Kickoff Meeting, USAF, Dayton, OH, March 5, 2008.
100. “Overview of MURI Thrust in Simulation and Design of Multifunctional Energetic
Structural Materials,” Eglin Air Force Base, Ft. Walton Beach, FL, March 13, 2008.
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101. “Scales and Modeling of Metal Fatigue Processes,” QuesTek Innovations LLC,
Evanston, IL, March 19, 2008.
102. “Fatigue Analysis in Hierarchical Microstructures,” ONR D3D review,
Northwestern University, Evanston, IL, March 24, 2008.
103. “Grain Boundary Structure and Dislocation Nucleation in FCC Metals,” Brown
University, Division of Engineering, April 21, 2008.
104. “Simulation and Design of Multifunctional Energetic Structural Materials,” Eglin
AFB, Ft. Walton Beach, FL, May 19, 2008.
105. “Multiscale Modeling and Materials Design,” Clemson University International
Center for Automotive Engineering, Automotive Engineering Lecture Series,
September 30, 2008.
106. “Trends in Modeling Multiscale Plasticity,” Sandia National Laboratories,
Albuquerque, NM, October 16, 2008.
107. “Overview: Crystal Plasticity Modeling of Ti64,” Boeing, St. Louis, MO, January
23, 2009.
108. “Value Proposition: Center for Computational Materials Design,” Rolls Royce,
Indianapolis, IN, January 30, 2009.
109. “Fatigue Modeling for Materials Design,” Rolls Royce, Indianapolis, IN, January
30, 2009.
110. “Constitutive Modeling and Microstructure-Sensitive Modeling of Fatigue,” GE
Webinar, February 27, 2009.
111. “Grain Boundary Structure and Dislocation Nucleation in FCC Metals,”
Northwestern University, March 3, 2009.
112. “Trends in Modeling Multiscale Plasticity,” University of North Texas, Denton,
TX, March 27, 2009.
113. “Grain Boundary Structure and Dislocation Nucleation,” University of Illinois at
Urbana-Champaign, April 13, 2009.
114. “Plasticity at Multiple Scales, “ Solid Mechanics and Materials Engineering Group,
Department of Engineering Science, University of Oxford, Oxford, UK, May 11,
2009. 115. “Microstructure-Sensitive Modeling of Fatigue,” Carpenter Technology Corp.,
Reading, PA, September 28, 2009.
116. “Research Efforts in Ti Alloys at Georgia Tech,” RTI International Metals, Inc.,
Niles, OH, September 23, 2010.
117. “Simulation-Based Strategies to Support Design of Advanced Engineering Alloys
for Fatigue Resistance” GE Global Research Center, Niskayuna, NY, Oct. 1, 2010.
118. ”Multiscale Modeling and Microstructure-Sensitive Materials Design,” Technical
University of Madrid, Spain, November 4, 2010.
119. ”Multiscale Modeling and Microstructure-Sensitive Materials Design,” University
of Grenada, Spain, November 5, 2010.
120. ”Metal Plasticity at Multiple Scales,” University of Seville, Spain, November 8,
2010.
121. ”Multiscale Modeling and Microstructure-Sensitive Materials Design,” University
of Zaragoza, Spain, November 10, 2010.
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122. ”Multiscale Modeling and Microstructure-Sensitive Materials Design,”
Northwestern University, Colloquia in Theoretical and Applied Mechanics,
Predictive Science and Engineering Design Cluster, November 18, 2010.
123. “Interplay of Multiscale Modeling with Microstructure-Sensitive Materials
Design,” North Carolina State University, January 14, 2011.
124. “Mechanistic Modeling of Cyclic Deformation with Dwell Times in Ni-Base
Superalloys,” Materials Directorate, AFRL, Dayton, OH, February 17, 2011.
125. “Multiscale Modeling and Microstructure-Sensitive Materials Design,” University
of Florida, November 22, 2011.
126. “Multiscale Modeling and Microstructure-Sensitive Materials Design,” ARL ICME
seminar series, Aberdeen, MD, March 7, 2012.
127. “Multiscale Modeling and Microstructure-Sensitive Materials Design,” Seminar of
the Materials Dept., UC-Santa Barbara, April 27, 2012.
128. “Modeling Fatigue Crack Formation and Early Growth in Polycrystals,” NAVAIR,
Patuxent, MD, June 7, 2012.
129. “Computational Methods to Quantify Fatigue Processes in Metals,” Medtronic,
Minneapolis, MN, June 19, 2012.
130. “Mesoscopic Computational Methods in Fatigue and Strain Localization,” Bettis
Laboratories, Pittsburgh, PA, September 5, 2012.
131. “Multiscale Modeling and Microstructure-Sensitive Materials Design,” Texas
A&M, April 18, 2013.
132. “Modeling Inelastic Behavior at Multiple Scales for Multiple Purposes,” Lawrence
Livermore National Laboratory, Livermore, CA, May 2, 2013.
133. “Adding Value to the New MGI Landscape,” Pacific Northwest National
Laboratory, Richland, WA, May 23, 2013.
134. Modeling Fatigue Crack Formation and Early Growth in Polycyrstals,” University
of Michigan, June 14, 2013.
135. “A Perspective on MGI Networking,” NAE/NAS Government /University/Industry
Research Roundtable Webinar, Creating a Materials Innovation Infrastructure: The
Materials Genome Initiative and the Materials Innovation Accelerator Network,
September 25, 2013 (joint with Dr. Cyrus Wadia, Assistant Director for Clean
Energy & Materials R&D with the White House Office of Science and Technology
Policy).
136. “Modeling Inelastic Behavior of Metals at Multiple Scales for Multiple Purposes,”
George Washington University, April 8, 2014.
137. “Modeling Inelastic Behavior of Metals at Multiple Scales for Multiple Purposes,”
Arizona State University, October 3, 2014.
138. “Microstructure-Sensitive Fatigue Modeling,” Virginia Tech, Biomedical
Engineering and Mechanics, November 12, 2014.
139. “Stress State Effects in Yield and Flow Responses of Nanocrystalline Metals,”
Caltech GALCIT seminar, December 8, 3014.
140. “Gaps in Multiscale Modeling of Metals,” Universität Stuttgart, December 18,
2014.
141. “Microstructure-Sensitive Fatigue Modeling,” IMDEA Materials, Madrid, Spain,
January 22, 2015.
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142. “Computational Materials Design Challenges for Metallic Materials,” Florida
International University, January 29, 2016.
143. “Some Important Scientific and Engineering Challenges for ICME,” Caterpillar,
Inc. Webinar, February 5, 2016.
144. “Challenges and Opportunities for Computational Design of Metallic Materials,”
NIST Materials Science and Engineering Colloquium, Gaithersburg, MD, April 21,
2016.
145. “Microstructure-Sensitive Multiscale Crystal Plasticity Modeling,” University of
Connecticut MSE Seminar, Storrs, CT, September 9, 2016.
146. “Microstructure-Sensitive Multiscale Crystal Plasticity Modeling,” Columbia
University, New York, NY, October 7, 2016
147. “Challenges and Opportunities for Simulation-Assisted Design of Metallic Materials,” Vanderbilt University, October 11, 2016.
148. “Multiscale Crystal Plasticity Model for Metals,” Georgia Tech Mathematics and
Applications Portal Seminar, School of Mathematics, Georgia Tech, December 2,
2016.
149. “Intersections of the Sandia Academic Alliance with Georgia Tech Materials
Research,” Sandia National Laboratory, Livermore, CA, March 2, 2017.
150. “Microstructure-Sensitive Multiscale Crystal Plasticity Modeling,” University of
Pennsylvania, Dept. of Mechanical Engineering and Applied Mechanics, March 27,
2018.
D5. Other Presentations
1. McDowell, D. L., "Some Comments on the Structure of Nonlinear Constitutive
Equations for Nonproportional Cyclic Plasticity," presented at the symposium in
honor of the retirement of Professor JoDean Morrow of the University of Illinois,
August 1984.
2. McDowell, D.L., "Crack Propagation Technology: Ct Development," EPRI RP2253
Industry Advisory Group Meeting, Barberton, OH, May 6, 1987.
3. McDowell, D.L., "Primary Creep Effects in Creep Crack Growth," VAMAS
Workshop on Creep Crack Growth, Georgia Tech, July 8-10, 1987.
4. McDowell, D.L., “Microstructure-Based Fatigue Model for Cast A356-T6 Alloy,”
Quarterly Review Meeting, USCAR/USAMP, Peoria, IL, April 5, 2000.
5. McDowell, D.L., “Structural Fatigue Investigation of the MURI on Integrated
Diagnostics,” and “MURI Demonstration: Example of a Simple Integrated
Diagnostic/Prognostic System,” ONR MURI final review meeting, Washington,
DC, Aug. 14, 2000.
6. McDowell, D.L., “Mechanical Properties of Linear Cellular Materials,” ONR
MURI review meeting, Brewster, MA, Aug. 24, 2000.
7. Cochran, J., Lee, J., McDowell, D.L. and Sanders, T.H.B., “Multifunctional Linear
Cellular Materials (LCMs): Structures and Thermal Management,” DARPA
Synthetic Multifunctional Materials 2001 PI Meeting, May 23-25, 2001, Jackson
Hole, WY.
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8. Cochran, J., Lee, J., McDowell, D.L. and Sanders, T.H.B., “Microchannel Heat
Exchangers for Electronics and Aerospace,” 2001 ONR Materials Review, June 13-
15, 2001, National Academy of Sciences Woods Hole Study Center, Woods Hole,
MA.
9. Cochran, J, Lee, J., Liu, M., McDowell, D.L. and Sanders, T.H.B., “Hybrid
Metal/Ceria Monolithic Low Temperature SOFCs, DARPA Palm Power Program
Review, Washington, DC, August 17, 2001
10. Goh, C.-H., Neu, R.W. and McDowell, D.L., “Length Scale Considerations in the
Formation of Attachment Fatigue Cracks,” AFOSR review of Metallic and Ceramic
Materials Programs, Snowbird Resort, Utah, Aug. 21-22, 2001.
11. McDowell, D.L., “Physics-Based Modeling of Ni-Base Superalloys,” DARPA AIM
PI Meeting, Islamorada, FL, February 27, 2002.
12. Cochran, J, Lee, J., Liu, M., McDowell, D.L. and Sanders, T.H.B., “Hybrid
Metal/Ceria Monolithic Low Temperature SOFCs, DARPA Palm Power Program
Review, Panama City, FL, March 12, 2002.
13. Cochran, J., Lee, J., McDowell, D.L. and Sanders, T.H.B., “Multifunctional Linear
Cellular Materials (LCMs): Structures and Thermal Management,” DARPA
Synthetic Multifunctional Materials 2002 PI Meeting, May 20-23, 2002, Jackson
Hole, WY.
14. Goh, C.-H., Swalla, D.R., Neu, R.W., McDowell, D.L., and Mayeur, J.R., “Length
Scale Considerations in the formation of Attachment Fatigue Cracks,” AFOSR
review of Metallic and Ceramic Materials Programs, Bar Harbor, MN, Aug. 12-14,
2002.
15. Cochran, J., Liu, M., McDowell, D.L., Lee, J. and Sanders, T., “SOFC Stacks from
Layered Extrusions,” DARPA Palm Power Program Review Meeting, Coronado,
CA, February 3-6, 2003.
16. Cochran, J., Lee, J., McDowell, D.L. and Sanders, T.H.B., “Multifunctional Linear
Cellular Materials: Thermal, Structural, Electronic, & Energetic Devices,” DARPA
Synthetic Multifunctional Materials 2003 PI Meeting, May 19-22, 2003, Jackson
Hole, WY.
17. Neu, R.W. and McDowell, D.L., “Length Scale Considerations in the Formation of
Attachment Fatigue Cracks,” AFOSR Contractors Meeting in Metallic Materials,
Boulder, CO, August 4-5, 2003.
18. Clark, J., Cochran, J., Lee, J., McDowell, D.L., Sanders, T. and Thadhani, N.,
"Linear Structures for Energetic Devices,” Naval Surface Warfare Center,
Dahlgren, VA, November 6, 2003.
19. McDowell, D.L., Kumar, R., Wang, A. and Shenoy, M., “Physically-based Models
for Creep-Fatigue Crack Initiation and Growth – Modeling,” DARPA AIM
Materials Science Collaboration Meeting, Northwestern University, Evanston, IL,
Nov. 13, 2003.
20. Wang, A., Kumar, R.S. and McDowell, D.L., Modeling of Low Cycle Fatigue,”
DARPA AIM PI review meeting, San Diego, CA, February 3-5, 2004.
21. Cochran, J., McDowell, D.L., Lee, J., Liu, M. and Sanders, T., “SOFCs from
Extruded Metal/Electrolyte Stacks,” DARPA Palm Power Program Review
Meeting, Orlando, FL, February 9-11, 2004.
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22. McDowell, D.L., Neu, R.W., Mayeur, J.R. and Zhang, M., “Microstructure and 3-D
Effects in Fretting Fatigue of Ti Alloys,” AFOSR review of Metallic Materials
Program, Wintergreen, VA, Aug. 16-18, 2004.
23. McDowell, D.L., Milligan, W., Mills, M., and Fraser, H., “Physically-Based
Modeling of IN 100 and Ti-6Al-4V, DARPA Prognosis Program Review, Sedona,
AZ, February 8-11, 2005.
24. Prasanna, R., Zhang, J., and McDowell, D.L, “3D Modeling of Fatigue Crack
Formation at Primary Inclusions: Application to Near Surface Inclusions in
Carburized Steel,” ONR D3D Tools Review Meeting, Northwestern University,
Evanston, IL, March 20, 2006.
25. McDowell, D.L., “Simulation and Design of Multifunctional Energetic Structural
Materials,” AFOSR Metallic Materials Grantees Meeting, Arlington, VA, Nov. 1-3,
2006.
26. McDowell, D.L., Prasanna, R., Salajegheh, N., and Zhang, J., “3D Modeling of
Fatigue Crack Nucleation at Primary Inclusions,” DARPA Prognosis PI Meeting,
St. Augustine, FL. January 29, 2007. 27. McDowell, D.L., Tjiptowidjojo, Y. and Przybyla, C., “Physics-based prognositic
tools for fatigue of propulsion system materials,” DARPA Prognosis PI Meeting,
St. Augustine, FL. January 29, 2007. 28. McDowell, D.L., and Prasanna, R., “3D Modeling of Fatigue in Hierarchical
Martensitic Steel Microstructures,’ ONR D 3-D Digital Structure Review Meeting,
Sept. 8-12, 2008.
29. McDowell, D.L. and Liu, Z.-K., “Center for Computational Materials Design,”
Timken Modeling Summit, March 19, 2009.
30. McDowell, D.L. and Prasanna, R., “3D Modeling of Fatigue in Hierarchical
Martensitic Steel Microstructures,” Steel Research Group Meeting overview of
ONR D3D program, Northwestern University, Evanston, IL, March 23-24, 2009.
31. McDowell, D.L., and Prasanna, R., “3D Microstructure-Sensitive Hierarchical
Fatigue Modeling of Martensitic Gear Steels,’ ONR D3-D Digital Structure Review
Meeting, Arlington, VA, July 7-9, 2009.
32. McDowell, D.L., “Multiscale Strengthening Mechanisms of UHPC/rpc For
Enhanced Blast/Penetration Resistance Against IEDs,” ERDC/DHS kickoff
meeting, Georgia Tech, July 10, 2009.
33. McDowell, D.L., “Materials at Georgia Tech: Materials Council Perspective,”
Division of Homeland Security Site Visit on Project on cIED Effects in Materials
and Materials Research at Georgia Tech, August 14, 2009. 34. Musinski, W. and McDowell, D.L., “Novel Methods for Microstructure-Sensitive
Probabilistic Fatigue Notch Factor,” Pratt & Whitney/GT Center of Excellence
Semi-Annual Review Meeting, East Hartford, CT, Dec. 15, 2009. 35. McDowell, D.L., Prasanna, R., and Salajegheh, N., “3D Modeling of Fatigue in
Hierarchical Martensitic Steel Microstructures,” Steel Research Group Meeting
overview of ONR D3D program, Northwestern University, Evanston, IL, March
22-23, 2010.
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36. Musinski, W. and McDowell, D.L., “Novel Methods for Microstructure-Sensitive
Probabilistic Fatigue Notch Factor,” Pratt & Whitney/GT Center of Excellence
Semi-Annual Review Meeting, East Hartford, CT, June 23, 2010.
37. McDowell, D.L., “Microstructure-Sensitive Fatigue Simulation,” Users Workshop
for CCMD Technologies, CCMD Winter Meeting, Georgia Tech, February 20,
2013.
38. McDowell, D.L., “Microstructure-Sensitive Miulitiscale Crystal Plsaticity
Modeling,” International Institute for Multifunctional Materials for Energy
Conversion Summer School, Texas A&M University, College Station, TX, July 29-
30, 2015.
39. McDowell, D.L., “Higher Order Moments of Responses and Statistical Volume
Elements,” International Institute for Multifunctional Materials for Energy
Conversion Summer School, Texas A&M University, College Station, TX, July 29-
30, 2015.
40. McDowell, D.L., “Length Scale Bridging from Atomistics Upward: Coarse-Grained
Atomistic Simulations,” International Institute for Multifunctional Materials for
Energy Conversion Summer School, Texas A&M University, College Station, TX,
July 29-30, 2015.
41. Zhu, T. and McDowell, D.L., “Coarse Graining: Time Scaling from Unit
Processes,” IIMEC Summer School on Computational Materials Science Across
Scales,” July 29-30, 2015.
42. McDowell, D.L., “Coarse-Grained Atomisitic Modeling of Dislocation Plasticity in
Metals,” International Institute for Multifunctional Materials for Energy Conversion
Summer School, Texas A&M University, College Station, TX, July 27, 2016.
43. McDowell, D.L., “Atomistic Modeling for Crystalline Nanostructures,” Mesoscale
Models: From Micro-Physics to Macro Interpretation Advanced School, CISM,
International Center for Mechanical Sciences, UDINE, Italy, May 23, 2017.
44. McDowell, D.L., “Atomistic-Continuum Coarse Graining (Length Scaling),”
Mesoscale Models: From Micro-Physics to Macro Interpretation Advanced School,
CISM, International Center for Mechanical Sciences, UDINE, Italy, May 24, 2017.
45. McDowell, D.L. and Zhu, T., “Atomistic-Continuum Coarse Graining (Time
Scaling),” Mesoscale Mesoscale Models: From Micro-Physics to Macro
Interpretation Advanced School, CISM, International Center for Mechanical
Sciences, UDINE, Italy, May 24, 2017.
46. McDowell, D.L., “Multilevel Crystalline Plasticity from nm to mm” Mesoscale
Models: From Micro-Physics to Macro Interpretation Advanced School, CISM,
International Center for Mechanical Sciences, UDINE, Italy, May 26, 2017.
E. Research Funding
Involved as PI or Co-PI in projects with over $25M research funding at Georgia Tech (not
counting contributions as investigator to large scale funded multi-investigatgor ERC proposals),
with support from a broad range of government funding agencies, national labs, and industries,
including NSF (ENG, CMMI, DMI, CMS,and DMR), ARO, AFOSR, ONR, DARPA, EPRI,
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NSWC, DOE, ERDC/DHS, ANR, ASME, ORNL, SANDIA, LANL, AFRL, KAPL, ARL,
AFRL, Eglin AFB, NASA NAVAIR, BMPC, Texas Instruments, General Motors, Ford, GE
Global, GE aircraft engines, Pratt & Whitney, UTRC, Ford Motor Company, Boeing, Simulia,
INTEL, Procter & Gamble, General Atomics Technologies, and QuesTek Innovations LLC.
F. Other Scholarly and Creative Accomplishments
McDowell, D.L., “Designing the Next Materials Revolution,” feature article in Industryweek, J.
Teresko, Nov. 1, 2008.
G. Societal and Policy Impacts
McDowell, D.L., “New and Improved Materials in the Next Production Revolution,”
Organization for Economic Cooperation and Development (OEDC), OECD (2017), Ch. 6 in The
Next Production Revolution: Implications for Governments and Business, OECD Publishing,
Paris, pp. 215-239. DOI: http://dx.doi.org/10.1787/9789264271036-en
McDowell, D.L. and Kalidindi, S.R., “The Materials Innovation Ecosystem: A Key Enabler for
the Materials Genome Initiative,” MRS Bulletin, Vol. 41, 2016, pp. 326-335.
Kalidindi, S.R., Medford, A.J., and McDowell, D.L., “Vision for Data and Informatics in the
Future Materials Innovation Ecosystem,” JOM, Vol. 68, No. 8, 2016, pp. 2126-2137.
H. Other Professional Activities
Engineering Consulting – over 20 clients from industry and government since 1983.
Entrepreneurial Activities
Vice President of Engineering and Founding Partner, Structured Alloys, Inc., a start-up
company, 2001-2007.
V. EDUCATION
A. Courses Taught:
Mechanics of Materials (ME 3201)
Statics (COE 2001)
Principles of Continuum Mechanics (ME 6201) (first internet course offering developed
in Fall 2001)
Mathematical, Statistical, and Computational Techniques in Materials Science (MSE
6795) (numerical modeling of materials with microstructure; have taught 1/3 to ½ of
course)
Fatigue of Materials and Structures (ME 7774)
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Advanced Constitutive Relations for Solids (ME 7203)
Mechanics and Applications of Nanostructured Materials and Devices (ME/BME/MSE
7205, initially developed in Spring 2004)
Statistics and Numerical Methods in MSE (MSE 3025; developed as new course; have
taught 2/3 of course)
Participated in developing and offering on the Coursera platform two new Massive Online Open
Courses (MOOCs) in Materials Data Sciences and Informatics (led by Dr. S. Kalidindi) and
Introduction to High-Throughput Materials Development (led by Drs. R. Neu and C. Meredith).
https://www.coursera.org/learn/material-informatics
https://www.coursera.org/learn/high-throughput
Teaching Awards
1. SAE Ralph R. Teetor Award, 1986.
2. ASEE Dow Outstanding Young Faculty Award, 1990
3. Jack M. Zeigler Outstanding Educator Award, GWW School of Mechanical
Engineering, 2004.
Other Teaching Activities
1. Taught short course on Principles of Fatigue Analysis jointly with Prof. G.
Kardomateas through GT Continuing Education, October 1997.
2. One of five instructors for sone week short course at CISM in Udine, Italy on
Mesoscale Mesoscale Models: From Micro-Physics to Macro Interpretation
Advanced School, CISM, International Center for Mechanical Sciences, UDINE,
Italy, May 22-26, 2017.
B. Individual Student Guidance
B1 Ph.D Students
B1.a Graduated
1. Mr. Chun-Pok Leung Graduated Summer Qtr. 1988:
"Estimation of the Ct Parameter for
Primary Creep"
Patent Attorney and Partner, Townsend,
Townsend & Crew, Palo Alto, CA
2. Mr. Kwang-Il Ho Graduated Fall Qtr. 1987:
"An Anisotropic Continuum Damage Model
for Creep-Dominated, Multiaxial Loading
Histories"
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Professor, University of Suwon, Mechanical
Engineering, Korea
3. Mr. John Moosbrugger Graduated Fall Qtr. 1988:
"A Rate-Dependent Bounding Surface
Model for Nonproportional Cyclic
Viscoplasticity"
Professor and Department Head, Mechanical
Engineering, Clarkson University
4. Mr. Kee-Bong Yoon Graduated Summer Qtr. 1990:
"Characterization of Creep Fatigue
Crack Growth Behavior Using the Ct
Parameter"
Co-advised by A. Saxena, MSE.
Professor, Chung-Ang University, Seoul,
Korea
5. Mr. Jean-Yves Berard Graduated Spring Qtr. 1990:
"Estimation of the Ct Parameter for
Primary Creep,"; co-advised with S.D.
Antolovich, MSE.
Director of Research, Renault Automotive,
Boulogne, France
6. Mr. Matthew P. Miller Graduated Spring Qtr. 1993:
"Improved Constitutive Relations for
Finite Strain Inelastic Deformation"
Professor, Mechanical Engineering, Cornell
University, Associate Director of CHESS
7. Mr. Esteban Marin Graduated Winter Qtr. 1994:
"A Critical Study of Finite Strain
Porous Inelasticity"
Corning, Incorporated
8. Mr. Negussie B. Adefris Graduated Fall Qtr. 1993:
"Creep-Fatigue Crack Growth Behavior of
1Cr-1Mo-0.25V Rotor Steel"
Co-advised by A. Saxena, MSE
3-M Corporation, Minneapolis, MN
9. Mr. David E. Hall Graduated Summer Qtr, 1995:
"Creep Crack Growth in Creep Brittle
Materials"
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Co-advised by A. Saxena, MSE
James F. Naylor, Jr. Endowed Professor,
Mechanical Engineering, Louisiana Tech
10. Mr. Ritesh Shah Graduated Summer Quarter 1994:
"Plastic Deformation and Microcracking
Behavior of Polycrystalline NiAl(Zr)";
Co-advised by Prof. S.D. Antolovich,
Washington State University
Johnson Matthey Electronics, Spokane, WA
11. Mr. George C. Butler Graduated Summer Qtr. 1999:
"Incorporation of Dislocation Substructure
into Crystal Plasticity Theory"; began Fall
1993
Co-advised by S.R. Stock, MSE
Sverdrup Technology, Inc, Destin, FL
12. Mr. Thomas E. Lacy Graduated Winter Quarter 1998:
“Distribution Effects in Damage
Mechanics” (NASA Fellow)
Co-advised by R. Talreja, AE
Professor, Aerospace Engineering,
Computational Engineering, Mississippi
State University
13. Ms. Valerie P. Bennett Graduated Summer Qtr, 1999:
“A Microscale Study of Small Crack
Propagation in Multiaxial Fatigue”;
began Spring 1993
14. Mr. Mark F. Horstemeyer Graduated Summer Qtr. 1995:
"Physically Based Models for
Deformation-Induced Anisotropy"
CAVS Chair in Computational Solid
Mechanics, Professor of Mechanical
Engineering, Mississippi State University
15. Mr. T. Jesse Lim Graduated Spring Qtr. 1999: "Behavior of a
Ni-Ti Shape Memory Alloy Under Cyclic
Proportional and Nonproportional
Loading”
Research Associate, Stanford University
Medical Center Dept. of Neurosurgery
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16. Mr. Chia-Yu Fu Graduated Spring Qtr. 1999: “Application
of Internal State Variable Models to
Thermal Processing and Reliability of Plated
Through Holes in Printed Wiring Boards”
Co-advised by C. Ume, ME
Motorola Corp., Tucson, AZ
17. Mr. Samuel Graham Graduated Summer Qtr. 1999: "The
Effective Thermal Conductivity of Damaged
Composites” (UTRC Fellow)
Rae and Frank H. Neely Chair and
Professor, GWW School of Mechanical
Engineering, Georgia Tech
18. Mr. Albert B. Tanner Graduated Spring Qtr. 1998: “Modeling
Temperature and Strain Rate History Effects
in OFHC Cu"
Robotic Vehicle Program Manager for BAE
Systems, Santa Clara, CA.
19. Mr. Allen Siu Graduated Spring Quarter 1998: “A Study of
a Three Dimensional Generalization of
Least Squares to Finitely Deforming Porous
Metallics”
Co-advised by Y.K. Lee, ME
Boeing Corp., Huntington Beach, CA
20. Mr. Robert D. McGinty Graduated Summer Semester 2001:
“Multiscale Representation of
Polycrystalline Inelasticity”
Senior Principal Mechanical Engineer
Mercer Engineering Research Center,
Warner Robins, GA
21. Mr. Ryan Morrissey Graduated Summer Semester 2001: “Strain
Accumulation and Shakedown in Fatigue of
Ti-6Al-4V”
Air Force Research Laboratory, Dayton, OH
22. Mr. Ali P. Gordon Graduated Spring Semester 2006: “Crack
Initiation Modeling of a Directionally-
Solidified Ni-base Superalloy” (GEM
Fellow)
Began Fall 1997
Co-advised with R.W. Neu, ME
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Associate Professor, University of Central
Florida, Orlando, FL
23. Mr. John D. Clayton Graduated Fall Semester 2002:
“Homogenization and Incompatibility Fields
in Finite Strain Plasticity”
(NSF Fellow)
Group/team leader in multi-scale mechanics
and impact physics, U.S. Army
Research Laboratory, Aberdeen, MD
24. Mr. Chun-Hyun Goh Graduated Summer Semester 2002: “Crystal
Plasticity Analyses of Fretting Fatigue”
Co-advised with W.O. Winer, ME
Assistant Professor, University of Texas-
Tyler
25. Mr. Mahesh Shenoy Graduated in Spring Semester 2006:
“Constitutive Modeling and Life Prediction
in Ni Base Superalloys”
Began Fall 2000.
Co-advised with R.W. Neu, ME
Schlumberger, Houston, TX
26. Mr. Douglas Spearot Graduated Summer Semester 2005:
“Atomistic Calculations of Nanoscale
Interface Behavior in FCC Metals”
Began Summer 2001.
Co-advised with K.I. Jacob, PTF&E
Associate Professor, Mechanical
and Aerospace Engineering, University of
Florida
27. Ms. Carolyn Seepersad Graduated Fall Semester 2004: "A Robust
Topological Preliminary Design Exploration
Method with Materials Design
Applications”
Began Fall 2001
Co-Advised with F. Mistree and J.K. Allen
(Hertz Fellow)
Associate Professor, General Dynamics
Endowed Faculty Fellowship, Mechanical
Engineering, University of Texas-Austin
28. Mr. James Shepherd Graduated Spring Semester 2006:
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"Multiscale Modeling of the Deformation of
Semi-Crystalline Polymers"
Began Winter 2003
(Nanoscience and Technology Graduate
Research Fellow)
Co-advised with K.I. Jacob, PTF&E
Procter & Gamble, Cincinnati, OH
29. Mr. Mark Tschopp Graduated Summer Semester 2007:
“Atomistic simulations of dislocation
nucleation in grain boundaries and single
crystals”
Began Fall 2003 (NSF Fellow)
U.S. Army Research Laboratory, Regional
Lead for ARO-Central
30. Mr. Ming Zhang Graduated Spring Semester 2008: “Crystal
Plasticity Modeling of Ti-6Al-4V in Cyclic
and Fretting Fatigue Analysis”
Began Fall 2003
Schlumberger
31. Mr. Haejin Choi Graduated Fall Semester 2005: “Uncertainty
in Materials Design”
Began Fall 2003
Co-Advised with F. Mistree
Professor of Mechanical Engineering,
Chung-Ang University, Seoul, Korea
32. Mr. D.J. Luscher Graduated Spring Semester 2010: “A
Hierarchical Framework for the Multiscale
Modeling of Microstructure Evolution in
Heterogeneous Materials”
Began Fall 2004
Los Alamos National Laboratory
33. Mr. Jason Mayeur Graduated Spring Semester 2011:
“Micropolar Plasticity of Polycrystals”
Began Fall 2004
CFD Research Corporation, Huntsville, AL
34. Mr. Nima Salajegheh Graduated Summer Semester 2011:
“Microstructure-sensitive weighted
probability approach for modeling surface to
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bulk transition of high cycle fatigue failures
dominated by primary inclusions”
Began Summer 2005
AMEC NSS
35. Mr. Ryan Austin Graduated Fall Semester 2010: "Modeling
shock wave propagation in discrete Ni/Al
powder mixtures"
Began Fall 2005
Lawrence Livermore National Laboratory
36. Mr. Rajesh Prasannavenkatesan Graduated Fall Semester 2009:
“Microstructure-Sensitive Fatigue Modeling
of Heat Treated and Shot Peened Martensitic
Gear Steels“
Began Fall 2005
Hardware Technologies, Facebook
37. Mr. Craig Przybyla Graduated Summer Semester 2010:
“Microstructure-Sensitive Extreme Value
Probabilities of Fatigue in Advanced
Engineering Alloys”
Began Spring 2006
Air Force Research Laboratory, Dayton, OH
38. Mr. Garritt Tucker Graduated Summer Semester 2011:
“Atomistic Simulations of Defect
Nucleation and Free Volume in
Nanocrystalline Materials”
Began Fall 2005
Assistant Professor, Colorado School of
Mines
39. Mr. Gustavo Castelluccio Graduated Spring Semester 2012: “A Study
of the Influence of Microstructure on Small
Fatigue Cracks,”
Began Spring 2008
Lecturer, Cranfield University, UK
40. Mr. Matthew Di Prima Graduated Spring Semester 2009: “Behavior
of Shape Memory Polymers”
Began Fall 2005
Co-advised with Ken Gall, MSE
41. Mr. Shreevant Tiwari Graduated Fall Semester 2014:
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“Methods for Aomistic Input into the Initial
Yield and Plastic Flow Criteria for
Nanocrystalline Meterials”
Began Fall 2009
Bloomberg, LP, New York City
42. Mr. Anirban Patra Graduated Fall Semester 2013:
“Modeling the Mechanical Behavior and
Deformed Microstructure of Irradiated BCC
Materials Using Continuum Crystal
Plasticity”
Began Fall 2009
Assistant Professor, IIT-Bombay
43. Mr. Brett Ellis Graduated Summer Semester 2013:
“Multiscale Modeling and Design of Ultra-
High-Performance Concrete”
Began Fall 2009
Assistant Professor of Mechanical
Engineering, University of Maine
44. Mr. Xin Dong Graduated Summer Semester 2015:
“Dependence of Mechanical Properties of
Partially Oriented Polymeric Systems on
Chemical Structure and Molecular
Architecture”
Began Fall 2009
Co-advised with Karl Jacob, MSE
Sealed Air Corp., Charlotte, NC
45. Mr. Matthew Priddy Graduated Summer 2016
“Exploration of Forward and Inverse
Protocols for Property Optimization of Ti-
6Al-4V”
Began Fall 2010
Co-advised with Don Shih, Boeing
Assistant Professor, Mississippi State
University
46. Mr. William Musinski Graduated Spring Semester 2014:
“Modeling the Effects of Shot-Peened
Residual Stresses and Inclusions on
Microstructure-Sensitive Fatigue of Ni-Base
Superalloy Components”
Began Summer 2010
-93-
Air Force Research Laboratory
47. Mr. Jeffrey Lloyd Graduated Spring Semester 2014:
“Microstructure-Sensitive Simulation of
Shock Loading in Metals”
Began Fall 2010 (NSF Fellow, then SMART
Fellow)
U.S. Army Research Laboratory
48. Mr. Zachary Kraus Graduated Spring Semester 2014:
“Computational Tools for Preliminary
Material Design of Metals and Polymer-
Ceramic Nano Composites”
Began Fall 2008 (CCMD supported, partial
Paden Chair Support)
Co-advised with Karl Jacob, MSE
49. Mr. Shuozhi Xu Graduated Fall Semester 2016:
“The Concurrent Atomistic-Continuum
Method: Advancements and Applications in
Plasticity of Face-Centered Cubic Metals,”
Began Fall 2011
Post doc at UC-Santa Barbara
50. Mr. Noah Paulson Graduated May 2017
“Structure-Property Linkages for
Polycrystalline Materials using Materials
Knowledge Systems,””
Began Fall 2013
Co-advised with Surya Kalidindi (GT) and
Don Shih (Boeing)
Post doc at Argonne National Laboratory
51. Mr. Aaron Tallman Graduated August 2018
“Uncertainty in Multiscale Modeling”
Began Fall 2012
Co-advised with Yan Wang
Post doc at Los Alamos National Laboratory
B1.b In Process
1. Mr. Luke Costello Under Advisement
“Atomistic and Multiscale Modeling of
Hyrogen Effects on Dislocations”
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Began Fall 2013
2. Ms. Adrienne Muth Under Advisement
“Computational Fatigue Screening for
Advanced Alloys”
Began Fall 2014
3. Mr. Kris Stopka Under Advisement
“Coarse-Graining Methods for Multiscale
Modeling in ICME”
Began Fall 2016
4. Mr. Gary Whelan Under Advisement
“ICME Protocols for Design of Fatigue
Resistant Alloys”
Began Fall 2016
5. Mr. Alex Selimov Under Advisement
“Coarse Grained Atomistic Modeling of
Microstructures”
Began Fall 2017
6. Mr. Theodore Zirkle Under Advisement
“Multiscale Crystal Plasticity for Structure-
Property Relations”
Began Fall 2017
7. Mr. Kevin Chu Under Advisement
“Coarse-Grained Atomistics for Dislocation
Plasticity in Metals”
Began Fall 2018
B2 M.S. Students
B.2.a Graduated with M.S.
1. Mr. Wilfredo Sotolongo Completed M.S. Thesis Winter
Quarter 1985: "On the Numerical
Implementation of Cyclic Elasto-
Plastic Material Models"
VP System x Sales North America
IBM Corporation
2. Mr. Neil Beals Completed M.S. Thesis Winter
Quarter 1986: "Fatigue Behavior of
-95-
Porous Polysulfone Coatings for
Orthopaedic Applications"
Executive in Residence at Innova/Memphis
Bioworks Foundation
3. Mr. Gary Reynolds Completed M.S. Thesis Summer
Quarter 1988: "Damage Rate
Approaches for Thermomechanical
Fatigue of Ni-Base Superalloys"
Michelin Research, Greenville, SC
4. Ms. Isabelle Groome Completed M.S. Thesis Summer
Quarter 1988: "A Combined
Histological-Finite Element Study
of Stress-Related Bone Resorption
in Canine Hip Implants"
5. Mr. Andrew Lamar Completed M.S. Thesis Spring
Quarter 1989: "Bounding Surface
Plasticity Theory with Backstress
Decomposition and Material Memory"
Ford Motor Co., Detroit, MI
6. Mr. Bruce Antolovich Completed M.S. Thesis Summer
Quarter 1990: "Deformation
Response of ARALL Under Uni-Axial
Loading"
Centre de Recherche de Trappes, Trappes,
France
7. Mr. Matthew Miller Completed M.S. Thesis Spring
Quarter 1990: "Life Prediction
Models for High Temperature
Fatigue Based on Microcrack
Propagation"
(See PhD)
8. Capt. William F. Ward Completed M.S. Thesis Spring
Quarter 1990: "A Theoretical
Investigation into the Inelastic
Behavior of Metal Matrix
Composites"
Miller-Clapperton Partnership, Inc., Smyrna,
GA
-96-
9. Ms. Stephanie Manuel Completed M.S. Thesis Summer
Quarter 1991: "Analysis of
Unstable Intertrochanteric Hip
Fracture Fixation"
10. Mr. John Ludden Completed M.S. Thesis Fall Quarter
1992: "Simulation of a Cylindrical
CVD Reactor for Deposition of SiC"
Co-advised by Dr. T.L. Starr, GTRI
11. Mr. Brian Schumacher Completed M.S. Thesis Fall Quarter
1992: "Tolerancing Effects on
Prosthetic Design and Implantation"
Richards Manuf. Corp., Memphis, TN
12. Mr. Brad Estes Completed M.S. Thesis Winter
Quarter 1993: "Mechanics of the
Lumbar Spine"
Earned PhD in 2008 in BMed Engng. at
Duke Univesity; with Division of
Orthopaedic Surgery,
Duke University Medical Center
13. Mr. T. Jesse Lim Completed M.S. Thesis Fall Quarter
1993: "Degradation of Ni-Ti Alloy
Under Cyclic Loading"
(See PhD)
14. Mr. Steven Lustig Completed M.S. Thesis Winter
Quarter 1995: "Microstructure
Evolution in Finite Strain
Inelasticity of FCC Polycrystals"
Motorola Corp.
15. Mr. Samuel Graham Completed M.S. Thesis Winter
Quarter 1995: "Mechanical Behavior
of FCC Polycrystals Under Complex
Loading at Finite Strain"
(See PhD)
16. Ms. Carole LeGall Completed M.S. Thesis Summer
Quarter 1996: "Parametric Analysis
of Underfilled Flip Chip Attachments"
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Manager, Multi-Physics Modeling and
Simulation – 8774, Sandia National
Laboratories, Livermore, CA
17. Mitchell A. Garber, M.D. Completed M.S. Thesis Summer
Quarter 1996: "The Biomechanical
Effects of Bone Demineralization
During Simulated Weightlessness"
Aerospace Medicine, Washington, DC
18. Mr. Ryan Morrissey Completed M.S. Thesis Summer
Quarter 1997: "Frequency and Mean
Stress Effects in High Cycle Fatigue
Of Ti-6Al-4V”
(See PhD)
19. Mr. James Shepherd Completed M.S. Thesis Fall Semester 2002:
"Internal State Variable Constitutive Models
for Behavior of Polymers"
(see PhD)
20. Mr. Charles Rosen Completed M.S. Thesis Summer Semester
2001: “Integrated Prognostics for Fatigue of
Structural Components”
Boeing Corp., Philadelphia
21. Mr. Brian Schroeter Completed M.S. Thesis Spring Semester
2002: “Techniques for Micro- and Meso-
Scale Measurements of Rotation and Stretch
Processes in Metallic Polycrystals”
22. Mr. Douglas Spearot Completed M.S. Thesis Spring Semester
2001: “Interface Separation Laws based on
Atomistics”
(Co-advised with K.I. Jacob. See PhD)
(see PhD)
23. Mr. Benjamin Dempsey Completed M.S. Thesis Summer Semester
2002: “Thermal Properties of Linear
Cellular Alloys”
24. Mr. Douglas Aleong Completed M.S. Thesis Spring Semester
2001: “Nonassociative Transformation of
Ni-Ti Shape Memory Alloy” (co-advised by
E. Patoor, ENSAM/Metz).
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Began Fall 1999
Dell Computer Corp.
25. Mr. Kevin S. Rees Completed M.S. Thesis Summer Semester
2001: “An Analytical Approach to On-
Condition Evaluation of Rotorcraft
Structural Integrity”
Began Fall 1999
Chief, Maintenance Engng. Division,
Aviation Engng. Directorate, US Army
Research, Development and Engng.
Command, USA
26. Mr. Cyril Dumont Completed M.S. Thesis Spring Semester
2001: “Experimental Studies of
Transformation Surfaces and Normality in
NiTi Shape Memory Alloys”
Co-advised by E. Patoor, ENSAM/Metz
27. Ms. Althea Hayes Completed M.S. Thesis Summer Semester
2001: “Compression Behavior of Linear
Cellular Steel”
Co-advised by J. Cochran and T.H.B.
Sanders, Jr., both of MSE
Schlumberger, Inc.
28. Mr. Sebastian Buzit Completed M.S. Thesis Spring Semester
2002: “Behavior and Modeling of TRIP
Steels”
Co-advised by M. Bervellier, ENSAM/Metz
29. Mr. Jean-Baptiste Bergugnat Completed M.S. Thesis Fall Semester 2002:
“Strain and Lattice Rotation Fields of
Deformed Polycrystals”
Sofregaz, Inc.
30. Mr. Vincent Fort Completed M.S. Thesis Spring Semester
2002: “Three-Dimensional Simulations of
Ni-Ti Shape Memory Alloy Based on an
Improved Variant Selection Method”
Co-advised by E. Patoor, ENSAM/Metz
31. Mr. Jason Mayeur Completed M.S. Thesis Fall Semester 2004:
”Three Dimensional Modeling of Ti-Al
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Alloys with Application to Attachment
Fatigue”
Began Fall 2001
(See PhD)
32. Ms. Jennifer Totty Completed M.S. Thesis Spring Semester
2003: “Multifunctional Applications of
Linear Cellular Alloys”
33. Mr. Jason LeMasters Completed M.S. Thesis Spring Semester
2004: “Thermal Stress Analysis of LCA-
Based Solid Oxide Fuel Cells”
Began Fall 2002
34. Mr. Timothy Wilde Completed M.S. Thesis Fall Semester 2004:
“Behavior of Goose Down in Compression”
Co-advised by K.I. Jacob, PTF&E
Began Fall 2002
35. Mr. Prescott Eisele Completed M.S. Thesis Spring Semester
2004: “Characterization of Material
Behavior During the Manufacturing Process
of a Co-Extruded Solid Oxide Fuel Cell”
Began Summer 2003
36. Mr. Ryan Austin Completed M.S. Thesis Summer Semester
2005: “Numerical Simulation of the
Shock Compaction of Microscale Reactive
Particle Systems”
Began Fall 2003
(See PhD)
37. Mr. Jin Song Completed M.S. Thesis Summer Semester
2010: “Hierarchical Microstructure-
Sensitive Modeling of Cyclic Deformation
Response of Ni-Base Superalloys”
38. Mr. William Musinski Completed M.S. Thesis Summer 2010:
“Probabilistic Fatigue Notch Factors from
Microstructure-Sensitive Simulations”
(See PhD)
39. Mr. Jeffrey Lloyd Completed M.S. Thesis Summer 2010:
“Combined Bottom-Up and Top-Down
Crystal Plasticity”
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NSF Fellow
(See PhD)
40. Mr. Benjamin Smith Completed M.S. Thesis Summer Semester
2013:
“Microstructure-Sensitive Plasticity and
Fatigue of Three Titanium Alloy
Microstructures”
Began Fall 2011
Boeing Research and Development, St.
Louis
41. Mr. Conor Hennessey Completed M.S. Thesis Summer Semester
2015: “Modeling Growth of
Microstructurally Small Fatigue Cracks in
Al Alloys”
Began Fall 2013
Ford Motor Co.
42. Mr. Joel Blumer Graduated Spring Semester 2015:
“Uncertainty in Multiscale Modeling of
Irradiated Ferritic Alloys”
Began Fall 2013
Co-advised by Dr. Yan Wang
43. Mr. Paul Kern Graduated Spring Semester 2016:
“Improvements to the Computational
Pipeline in Crystal Plasticity Estimates of
High Cycle Fatigue of Microstructures”
Began Fall 2014
General Motors
M.S. Special Problems Students
1. Mr. Jung-Woog Shin Winter Qtr. 1987
"A Study of Time-Dependent
Development of Creep Strains
Around the Tip of a Crack"
2. Mr. Charles Carter Fall Qtr. 1992
"Knee Joint Prostheses"
3. Ms. Valerie Poindexter Winter Qtr. 1993
"Fatigue Microcrack Nucleation and
Propagation"
4. Jean-Francois Weibell “Improving the Time Response of Shape
Memory Actuators: A Feasibility Study”
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Fall Semester 2001
5. Ms. Fonny Lolita “X-Ray Analysis of the Phase Stress
Distribution”
Fall Semester 2002
6. Mr. Sylvain Vitry “X-Ray Analysis of the Phase Stress
Distribution”
Fall Semester 2002
7. Mr. Sylvain Gillmeth “Individual Grain Analysis During
Martensitic Transformation in a
Polycrystalline Shape Memory Alloy”
Fall Semester 2002
8. Ms. Yasmine Umbdenstock “Individual Grain Analysis During
Martensitic Transformation in a
Polycrystalline Shape Memory Alloy”
Fall Semester 2002
9. Ms. Kristin Dion “Taylor Impact Analyses”
Summer Semester 2003.
10. Mr. Brian Boeke “Tailorable CTE Lattice Structures”
Summer Semester 2012.
B3. Undergraduate Students (Special Problems/Research)
1. Mr. Bruce Antolovich Winter-Spring Qtrs. 1988
"A Bounding Surface Theory for
Metal Matrix Composites"
2. Mr. Jeffrey Kim Fall-Spring Qtrs. 1990-91
"Thermomechanical Fatigue Life
Prediction of Ni-Base Superalloys"
3. Mr. Grant Cook Fall-Winter Qtrs. 1991-92
Bio-Solid Mechanics
4. Mr. Del Brooks Winter-Fall Qtrs. 1992
Behavior of Solders
5. Mr. James Jacobus Fall-Summer Qtrs. 1992-93
Finite Strain Plasticity
6. Mr. Siao Ly Spring-Summer Qtrs. 1993
TRIP Steel Response
7. Mr. Peter Buzyna 1994-95
Specimen preparation for texture
and mechanical testing
8. Mr. Jose Martinez Summer Qtr., 1995
GT-SUPREEM program summer student
Ratchetting and cyclic plasticity
9. Mr. Mohammed Kamel Multiaxial fatigue, Fall 1996-Spring 1998
10. Mr. Tim Edwards Multiaxial fatigue, Winter 1997-Summer
1998
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11. Mr. Anthony Bell Multiaxial fatigue, Summer 1997-
Spring 1998
12. Mr. D. Van Dellan Multiaxial fatigue, Fall 1998-Spring
1999
13. Mr. Farris Jessa Multiscale analysis of Cast A356 Al
Fall 1998-Spring 2000
14. Mr. Saeyeol Kim Summer 2000-present
15. Mr. Brad Schafer Summer 2000
16. Mr. Bahidin Alajbegovic Summer 2000
17. Mr. Michael Hughes Summer 2000
18. Mr. Sounghwan Lyu Fall 2000-Spring 2001
19. Mr. Scott Eisele Fall 2000-present (enrolled in 5-year MS
program)
20. Mr. Kevin Spengler Spring 2001
21. Mr. Greg Kim Spring 2001
22. Mr. John Tidwell Spring 2001
23. Mr. Ted Akiskalos Fall 2000-Fall 2001
24. Mr. AbdurRahman Shareef Spring 2003
25. Mr. Olu Ogansanya Fall 2002-Fall 2003
26. Mr. Shreevant Tiwari Summer 2007
27. Mr. Mukul Singhee Summer 2007
28. Mr. Jeevan Chakraborty Summer 2007
29. Mr. Mukesh Singh Summer 2008
30. Ms. Sara Drozdowski Fall 2009-Summer 2010
31. Mr. Tuyen Huynh Summer 2010
32. Ms. Jennifer L. Gordon Summer 2010
B4. Service on Thesis or Dissertation Committees
I serve on a number of these per year, and do not keep track. Academic unit records exist.
B5. Mentorship of Postdoctoral Fellows or Visiting Scholars
1. Postdoctoral Fellows Supervised
Chun-Pok Leung
1988-1989
Topic: Creep crack growth mechanics
Veronique Ferney
University of Technology de Troyes, France
1994-1995
Topic: Dislocation substructure effects on hardening in polycrystal plasticity
Aijun Wang
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November 2000-October 2004 Topic: Computational mechanics of two phase Ni-Base superalloys; mechanics of linear
cellular alloys. (now with Microsoft)
Rajesh Kumar
July 2001-October 2004
Topic: Methods for computational materials design; applications to linear cellular alloys
and heterogeneous microstructures.
Jixi Zhang
February 2005-March 2006
Topic: Computational methods for heterogeneous microstructures
Florent Bridier DCNS Group, Paris September 2006-September 2007 Topic: Polycrystal plasticity modeling of cyclic deformation and fatigue of dual phase Ti-alloys. Moses Owolabi Faculty at Howard University January 2007-December 2008. Topic: Computational modeling and experiments regarding size effects in microstructure-sensitive notch root fatigue of alloys. Hongwei Li September 2009-August 2010 Topic: Multiscale modeling of dynamic behavior of high performance concrete microstuctures (co-advised with M. Zhou)
Jagan Padbidri
Faculty at Mahindra Ecole Centrale, India
September 2010-September 2013
Topic: Microstructurally and small fatigue crack growth in low stacking fault energy
cladding materials from shrinkage defects.
Gustavo Castelluccio
Lecturer at Cranfield University, UK
July 2012-January 2015
Topic: Modeling 3D microstructurally small fatigue crack growth.
Dengke Chen
November 2015-Present
Topic: Atomistic modeling of dislocation interactions with hydrogen in Ni-based alloys.
Co-advisor: Ting Zhu
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Shuozhi Xu
January-June 2017
Topic: Coarse-grained atomistic modeling of dislocations.
Tang Gu
July 2017-Present
Topic: Multiscale computational modeling, including atomistic and continuum FE
approaches.
Visiting researchers have included:
Christophe Bertoncelli
IRSID
St. Germain en Laye, France
1991-1992
Topic: Experimental studies of void nucleation and growth in processing of steels
Paul Mazataud
IRSID
St. Germain en Laye, France
1993-1994
Topic: Void nucleation and growth laws in processing of steels
Jinghong Fan
Visiting Senior Research Scientist from the Department of Engineering Mechanics,
Chongqing University, China
1997- August 2000
Topic: Mechanics of fatigue of cast Al alloys; behavior of lightweight metal structures
Professor Kisu Lee
Dept. of Mechanical Engineering
Chon Buk National University
Chon Ju, Chon Buk, Korea
1998-1999; 2000
Topic: Computational algorithms for material separation and embedded sets of material
microstructures (local and nonlocal forms), with emphasis on fracture of metal-metal and
metal-ceramic interfaces.
Professor Fionn Dunne
Department of Engineering Science
Oxford University
April-May 1999
Topic: Computational micromechanics of superplastic flow and forming of dual phase
alloys with application to Ti-6Al-4V
-105-
Dr. Myungsoo Kang Power Generation Research Laboratory Korea Electric Power Research Institute Taejon, Korea
November 2000-October 2001
Topic: Experimental studies of high temperature fatigue and fretting fatigue of Cr-Mo steels and directionally solidified Ni-base superalloys.
Dr. Douglas J. Bammann
Distinguished Member of the Technical Staff
Mechanics of Materials
Sandia National Laboratories
Livermore, CA
August 2002-February 2003
Topics: Mechanics of lattice-defect interactions in metallic systems
Professor Madhusudan Chakraborty
Deputy Director, IIT Kharagpur
Professor of Metallurgical and Materials Engineering
Kharagpur, India
May 2007-June 2007
Topics: Process-Structure-Property relations in wrought and cast alloys; materials design
Dr. Sudipto Ghosh
Assistant Professor of Metallurgical and Materials Engineering
IIT Kharagpur
Kharagpur, India
May 2007-June 2007
Topics: Computational materials science; dislocation mechanisms in metals
Professor Namas Chandra
Associate Dean, College of Engineering
University of Nebraska
Lincoln, NE
January-February 2010
Topic: Interface mechanics of failure; biomimetics
Professor Hisao Matsunaga
Fukuoka University, Japan
September 2010-August 2011
Topic: Emerging computational and experimental methods to explore microstructure
sensitivity of high cycle fatigue of advanced alloys
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Dr. Pierre Vandekerkhove
Maître de conférences habilité à diriger des recherches
Français, marié, 1 enfant.
Université Paris-Est Marne-la-Vallée
Laboratoire d’Analyse et de Mathématiques Appliquées
February 2012-December 2013
Topic: Mathematical asymptotic convergence of numerically sampled extreme value
distributions related to rare event materials deformation and damage.
Rudolf Neumann
Karlsruhe Institute of Technology, Germany
Visiting PhD student, funded by the Karlsruhe House of Young Scientists of KIT
March-May 2014
Professor Yoshiteru Aoyagi
Tohuku University, Japan
September 2018-present
Topic: Multiscale modeling of dislocation plasticity.
Ph.D. Special Problems Students/Interactions
1. Mr. Kristoffer Haldrup “Crystal Plasticity: Comparisons with
Experiments on Polycrystals”
April 2006-July 2006
Visiting PhD student from RISO in
Denmark
VI. SERVICE
A. Professional Contributions
A1. Editorial Board Memberships
1. Editorial Advisory Board, International Journal of Plasticity, 1991-2017.
Editorial consultant, 2018-present.
2. Past Editor, 2002-present; Editor, 1997-2002, ASME Journal of Engineering
Materials and Technology; Associate Editor, 1992-1997.
3. Editorial Advisory Board, International Journal of Damage Mechanics, 1993-
2014.
4. Editorial Advisory Board, International Journal of Fatigue and Fracture of
Engineering Materials and Structures, 1994-2007.
5. Regional Editor, International Journal of Fracture, 1997-2005.
6. Editorial Board, Journal of Multiscale Computational Engineering, 2002-present.
7. Editorial Board, Mechanics of Advanced Materials and Structures, 2004-present.
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8. Co-Editor, International Journal of Fatigue, 2007-present.
9. Editorial Board, Journal of Multiscale Modeling, 2013-present.
10. Editorial Board, npj:Computational Materials, Nature Publishing Group, 2015-
present.
A2. Society Offices, Activities, and Memberships
1. Member, American Society of Mechanical Engineers (ASME), 1979-present;
Fellow, 1995; Editor, ASME Journal of Engineering Materials and Technology,
1997-2002.
2. Member, Society for Experimental Mechanics, 1982-1991.
3. Member American Society of Testing and Materials Committee E-9 on Fatigue,
1983-2011 (member, Executive and Long Range Planning Committees of E-9);
member, Committee E-8 on Fatigue and Fracture, 1992-present; member of the
Executive Committee, 1992-1995; Chair, Task Group on Continuum Damage
Mechanics, E-8 Subcommittee on Research.
4. Member, Sigma Xi, 1984-1994, 2001-2009. Elected Member-At-Large, Georgia
Tech Chapter of Sigma Xi, 1991-94 (in charge of Monie Ferst Symposium).
5. Member, American Academy of Mechanics, 1986-present.
6. Member, Society of Automotive Engineers, 1986-1989.
7. Member, American Society for Engineering Education, 1985-present.
8. Member, American Ceramics Society, 1991-1994.
9. Appointed as Member of U.S. National Committee on Theoretical and Applied
Mechanics, administered by the National Research Council (ASTM
representative), 1994-2000.
10. Member of Visiting Committee for review of programs of ARO Mechanics
Division, 1995
11. Member, Materials Research Society, 1994-present.
12. Member, ASM-International, 1996-present.
13. Invited participant, ARO strategy planning meeting, Myrtle Beach, SC, March
1995
14. Member, Panel on Modeling and Simulation, Naval Studies Board study on
Technology for Future Naval Forces, National Research Council, Washington,
D.C., 1995-1998. Co-authored “Technology for the United States Navy and
Marine Corps, 2000-2035: Becoming a 21st Century Force: Volume 9 - Modeling
and Simulation,” National Academy Press, 1997.
15. Member, Defense Science Board Task Group, 1997-1998.
16. Elected to Board of Directors of the Society of Engineering Science, 2000;
elected Vice President of SES in October 2000 for the year 2001; President of
SES, calendar year 2002; conferred as Fellow of SES in 2007.
17. Member, TMS, 2001-present
18. Associate Member, AIAA, 2002-present
19. Member, External Review Panel of the Engineering Sciences Foundation at
Sandia National Laboratories, 2009-2015. Provided feedback each spring regaring
Sandia’s annual performance evaluation to the Department of Energy.
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20. Served on Habilitation Jury of Professor Maxime Sauzay, University of Paris VI,
May 2009.
21. Guest edited special issue of International Journal of Fatigue entitled “Emerging
Frontiers in Fatigue,” Volume 32, Issue 9, September 2010, pp. 1399-1542.
22. Served on the external review committee for the Materials Science and
Engineering Program at Texas A&M University, February 2012.
23. Member, American Nuclear Society, 2012-2014.
24. Member at Large of the TMS Materials Innovation Committee, 2013-present.
25. Member, TMS Study Group on Modeling Across Multiple Length Scales, 2014-
2015.
26. Member, ASM Materials Property Database Committee, 2014-present.
27. Member, Science Advisory Board of the Materials in Extreme Dynamic
Environments (MEDE) ARL CRA at Johns Hopkins University, 2014-present.
28. Member of the Advisory Board, Sandia National Laboratories Engineering
Materials Reliability Research Challenge “Born Qualified” on Additive
Manufacturing, 2016-present.
29. Panelist, MGI 5th anniversary celebration, White House OSTP, Aug. 2, 2016.
30. Member, D3EM Advisory Board, Texas A&M University, 2017-present.
31. Invited keynote plenary speaker, Australian National Symposium on Integrated
Computational Materials Engineering, serving as advisor to launching a national
ICME initiative in Australia similar to those in USA and Europe, Melbourne,
Australia, February 19-20, 2018.
A3. Organization and Chairmanship of Technical Sessions, Workshops, and Conferences
Conference/Session Organization
1. Co-Organizer of session entitled "Viscoplasticity: Experiment, Modeling and
Computation" at the Eleventh U.S. National Congress of Applied Mechanics,
University of Arizona, Tucson, May 21-25, 1990.
2. Vice-Chairman, 22nd National Symposium on Fracture Mechanics, ASTM,
Atlanta, GA, June 26-28, 1990.
3. Co-Chairman, Symposium on Multiaxial Fatigue, ASTM, San Diego, CA,
October 14-16, 1991.
4. Invited Member of International Scientific Committee of Plasticity '91, Grenoble,
France
5. Invited Member of Scientific Advisory Board, MECAMAT '92, Cachan, France,
September 1-4, 1992.
6. Co-Organizer (with S.D. Antolovich of Washington State University), NSF
Workshop on Processing and Modelling of Advanced Engineered Materials,
Washington State University, Pullman, WA, October 11-13, 1993.
7. Invited Member of International Committee of the Fourth International
Conference on Biaxial/Multiaxial Fatigue, St.Germain en Laye, France, May 31-
June 3, 1994.
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8. Co-Organizer (with J. Moosbrugger of Clarkson University) of three sessions
entitled "Cyclic Inelastic Behavior of Materials" at the 12th U.S. National
Congress of Applied Mechanics, University of Washington, Seattle, WA, June
27-July 1, 1994.
9. Co-Chairman (with S.D. Antolovich of Washington State University) of NSF
Workshop on Processing and Constitutive Modelling of Advanced Engineered
Materials II, Lake Lanier Islands, Georgia, October 24-26, 1994.
10. Invited Member of International Scientific Committee of the Third Asia-Pacific
Symp. on Advances in Engineering Plasticity and its Applications, Hiroshima,
Japan, Aug. 21-24, 1996.
11. Organizer of ASTM Symp. on Applications of Continuum Damage Mechanics to
Fatigue and Fracture, Orlando, FL, May 21, 1996.
12. Invited Member of International Scientific Experts Commitee, EUROMECH
MECAMAT '96 on Local Approach to Fracture 86-96, Fontainbleau, France,
September 9-11, 1996.
13. Member of International Organizing Committee of 5th Int. Conf. On
Biaxial/Multiaxial Fatigue & Fracture, Cracow, Poland, 8-12 Sept., 1997.
14. Member of the Program Advisory Committee, NSF Institute for Mechanics and
Materials Workshop on Composite Materials: Issues in Processing and
Mechanics, Mescalero, New Mexico, 5-8 Oct., 1997
15. Co-Organizer (with Prof. K.J. Miller of Sheffield Univ., UK) of ASTM
Symposium on Mixed Mode Fatigue and Fracture, Atlanta, GA, May 6-7, 1998.
16. Invited Member of International Scientific Committee of the 35th Annual
Technical Meeting, Society of Engineering Science, Washington State University,
Pullman, WA, Sept. 27-30, 1998.
17. PI/PD and Co-Organizer (with Prof. T.L. Story of Morehouse College) of an
NSF-sponsored workshop “New Directions in Materials Design Science and
Engineering,” held Oct. 19-21, 1998 in Atlanta, GA.
18. Conference Committee Member, EUROMECH-MECAMAT, 3rd European
Mechanics of Materials Conference on Mechanics and Multi-Physics Processes in
Solids: Experiments, Modelling and Applications, Oxford, U.K., 23-25
November, 1998.
19. Invited member of the International Advisory Committee, 4th International
Conference on Constitutive Laws for Engineering Materials, Rensselaer
Polytechnic Institute, Troy, NY, July 27-30, 1999.
20. Co-organizer with D.J. Bammann of a workshop on Nonlocal Solid Mechanics,
Summer Engineering Sciences Institute, Sandia National Laboratories, Livermore,
CA, Aug. 10-12, 1999.
21. Invited member of the International Scientific Committee of Experts,
EUROMECH-MECAMAT, 4th European Mechanics of Materials Conference in
Processes, Microstructures and Mechanical Properties, Metz, France, June 26-29,
2000.
22. Invited member of the International Scientific Committee of the 37th Annual
Technical Meeting of the Society of Engineering Science, Columbia, SC, October
23-25, 2000.
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23. Member, International Scientific Committee, Sixth International Conference on
Biaxial/Multiaxial Fatigue and Fracture, Lisbon, Portugal, 25-29 June, 2001.
24. Member, Editorial Board, special symposium honoring Professor Sia Nemat-
Nasser on Experiments and Modeling of Failure in Modern Materials,
ASME/SES, June 2001.
25. Co-organizer with Professor Ewald Werner of TU-Munich and Reinhold Kienzler
of Bremen University, “Mechanics of Materials,” a one-week symposium
sponsored by Mathematishes Forschungsinstitut Oberwolfach, Oberwolfach,
Germany, May 5-11, 2002.
26. Organizer of Symposium on Simulation-Based Design of Materials for
Affordability, 9th AIAA/ISSMO Symposium on Multidisciplinary Analysis and
Optimization, Atlanta, Georgia, September 5-6, 2002.
27. Co-Organizer with H. Garmestani, ARO/Georgia Tech Workshop on Inverse
Methods in Materials Design, Atlanta, April 26-28, 2004.
28. Co-Organizer with K.Z. Hwang, Tsinghua University, and J. Fan, Chongqing
University, International Conference on Heterogeneous Material Mechanics held
in Chongqing, China, June 21-26, 2004. D.L. McDowell served as guest editor of
three special issues arising from this Conference:
Plasticity of Heterogeneous Materials (11 papers)
Special Issue of the International Journal of Plasticity
Design of Heterogeneous Materials (7 papers)
Special Issue of the Journal of Computer-Aided Materials Design
Mechanics and Design of Cellular Materials (6 papers)
Special Issue of Mechanics of Advanced Materials and Structures
29. Member, International Scientific Committee of International Conference on
Biaxial/Multiaxial Fatigue and Fracture, held June 28-30, 2004, Berlin, Germany.
30. Co-organizer with Brent Adams and Craig Hartley, ASME DETC Symposium on
Materials Design, Salt Lake City, September 2004.
31. Co-organizer with H. Garmestani and Craig Hartley, Symposium on Materials
Design, Plasticity ’05, Kauai, Hawaii, January 2005.
32. Co-organizer with Z.-K. Liu of Penn State, Workshop on Computational
Materials Design, Planning meeting for NSF I/UCRC proposal, State College, PA
January 20-21, 2005.
33. Organizer of Session on High Temperature Creep Fracture of Interfaces,
International Conference on Fracture, ICF 11, Turin, Italy, March 20-25, 2005.
34. Co-Chairman with Professor Chakraborty Madhusudan, IIT Kharagpur
(Secretary: Sudipto Ghosh, IIT Kharagpur, India; Joint Secretary, Farrokh
Mistree, Georgia Tech.), International Conference on Advanced Materials Design
and Development (ICAMDD-2005), Goa, India, Dec. 14-16, 2005.
35. Co-organizer with Professor Ewald Werner of TU-Munich and Reinhold Kienzler
of Bremen University of “Mechanics of Materials,” a one-week symposium
sponsored by Mathematishes Forschungsinstitut Oberwolfach, Oberwolfach,
Germany, Jan. 22-28, 2006.
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36. Co-organizer with Z.-K. Liu of Penn State, Bi-annual meeting of NSF Center for
Computational Materials Design, Georgia Tech Global Learning Center, February
27-28, 2006.
37. Co-organizer with Professors W.S. Johnson of Georgia Tech, A. Saxena of the
University of Arkansas, and J. Newman of Mississippi State University, Fatigue
2006, International Congress on Fatigue (held once every four years), hosted by
Georgia Tech, Atlanta, GA, May 14-19, 2006.
38. Co-organizer with Z.-K. Liu of Penn State, Bi-annual meeting of NSF Center for
Computational Materials Design, State College, PA August 24-25, 2006.
39. Co-organizer with Professor H. Sehitoglu of the University of Illinois, Workshop
on Advances in Fatigue Assessment Technology: Honoring Professor Socie,
Sponsored by ASTM Committee E08 on Fatigue and Fracture, ASTM Fall
Meeting, Atlanta, GA, Nov. 16, 2006.
40. Co-organizer with Z.-K. Liu of Penn State, Bi-annual meeting of NSF Center for
Computational Materials Design, Georgia Tech Manufacturing Research Center,
February 18-20, 2007.
41. Co-organizer with Z.-K. Liu of Penn State, Bi-annual meeting of NSF Center for
Computational Materials Design, GE Global Research Center, Schenectady, NY
August 22-23, 2007.
42. Co-organizer with Z.-K. Liu of Penn State, Bi-annual meeting of NSF Center for
Computational Materials Design, Georgia Tech Manufacturing Research Center,
February 20-22, 2008.
43. Co-Chair with K.C. Hwang, Tsinghua University, X.P. Wu, University of Science
and Technology of China, and J. Fan, Alfred University and Chongqing
University, International Conference on Heterogeneous Material Mechanics
(ICHMM 2008) held in Huangshan, China, June 3-8, 2008.
44. Co-organizer with Z.-K. Liu of Penn State, Bi-annual meeting of NSF Center for
Computational Materials Design, State College, PA, September 3-5, 2008.
45. Co-organizer with Z.-K. Liu of Penn State, Bi-annual meeting of NSF Center for
Computational Materials Design, Georgia Tech Manufacturing Research Center,
February 22-24, 2009.
46. Co-organizer with Z.-K. Liu of Penn State, Bi-annual meeting of NSF Center for
Computational Materials Design, State College, PA, August 9-11, 2009.
47. Member, Scientific Committee, 1st International Conference on Material
Modelling, Dortmund, Germany, September 15-17, 2009.
48. Co-organizer with Z.-K. Liu of Penn State, Bi-annual meeting of NSF Center for
Computational Materials Design, Boeing Company, St. Louis, February 22-24,
2010.
49. Co-organizer with Z.-K. Liu of Penn State, Bi-annual meeting of NSF Center for
Computational Materials Design, State College, PA, August 9-11, 2010.
50. Member, International Organizing Committee, 20th International Workshop on
Computational Mechanics of Materials, Loughborough University, UK,
September 8-11, 2010.
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51. Co-organizer with Z.-K. Liu of Penn State, Bi-annual meeting of NSF Center for
Computational Materials Design, Georgia Tech Manufacturing Research Center,
February 21-23, 2011.
52. Co-Chair with Y.L. Bai, Chinese Academy of Sciences, Z. Wang, Shanghai
University, and J. Fan, Alfred University and Chongqing University, 3rd
International Conference on Heterogeneous Material Mechanics (ICHMM 2011)
held at Chongming Island, Shanghai, China, May 22-26, 2011.
53. Co-organizer with Z.-K. Liu of Penn State, Bi-annual meeting of NSF Center for
Computational Materials Design, State College, PA, August 15-17, 2011.
54. Member, International Organizing Committee, 2nd International Conference on
Material Modeling (ICMM2), Paris, France, Aug. 31-Sept. 2, 2011.
55. Co-organizer with Z.-K. Liu of Penn State, Bi-annual meeting of NSF Center for
Computational Materials Design, Savannah, GA, February 20-21, 2012.
56. Co-organizer with E. Werner, R. Kienzler and S. Mueller, Workshop on
Mechanics of Materials, Mathematisches Forschungsinstitut Oberwolfach,
Oberwolfach, Germany, March 19-23, 2012.
57. Co-organizer with Z.-K. Liu of Penn State, Bi-annual meeting of NSF Center for
Computational Materials Design, State College, PA, August 13-15, 2012.
58. Chair, 49th Annual Technical Meeting of the Society of Engineering Science
(SES), Georgia Tech Hotel, Oct. 10-12, 2012 (420 participants).
59. Co-organizer with Z.-K. Liu of Penn State, Bi-annual meeting of NSF Center for
Computational Materials Design, Atlanta, GA, February 20-22, 2013.
60. Co-organizer with Z.-K. Liu of Penn State, Bi-annual meeting of NSF Center for
Computational Materials Design, State College, PA, August 12-14, 2013.
61. Member of the Scientific Committee, 3rd International Conference on Material
Modeling (incorporating 13th European Mechanics of Materials Conference,
Warsaw, Poland, Sept. 8-11, 2013.
62. Co-organizer, with E. Busso, A.A. Benzerga and T. Pardoen, Symposium JJ:
Materials Fundamentals of Fatigue and Fracture in honor of Acta Materialia Gold
Medalist Andre Pineau, MRS Fall Meeting, Boston, MA, Dec. 3, 2013.
63. Chair and host of Southeastern U.S. Regional Materials Genome Initiative
Workshop, in coordination with White House OSTP, Georgia Tech, Atlanta, GA,
March 28, 2014.
64. Host and co-organizer (with J. Ready, GT; D. Morgan and T. Kuech, UW-
Madison; J. Allison, Univ. Michigan) of the workshop “Building an Integrated
Materials Accelerator Network” for U.S. Materials Genome Initiative, in
coordination with White House OSTP and with sponsorship of NSF, ONR, NIST,
Boeing, IMERYS, Simmons, TMS, ASM and MRS, Georgia Tech, Atlanta, GA,
June 5-6, 2014.
65. Member, Scientific Committee, 17th U.S. National Congress on Theoretical and
Applied Mechanics, Michigan State University, East Lansing, MI, June 16-20,
2014 (along with T. Hughes and M. Sacks, Univ. Texas-Austin, M. Abeyaratne,
MIT, F. Moon, Cornell, and A. Smits, Princeton).
66. Co-organizer, with Tom Bieler, of Minisymposium on Nano- and Micro-
Mechanics of Materials with Microstructure, 17th U.S. National Congress on
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Theoretical and Applied Mechanics, Michigan State University, East Lansing,
MI, June 15-20, 2014.
67. Co-organizer (with J. Neugebauer, D. Wu, P. Gumbsch, K. Rajan, and V.
Bulatov), Symposium on Multiscale Simulations and Modeling Integrated
Materials Engineering, with Bulatov et al., 7th Int. Conference on Multiscale
Materials Modeling, 2014, Berkeley, CA, Oct. 6-10, 2014.
68. Co-organizer (with M. Zhou and N. Thadhani) of Symposia on In-Situ, Time
Resolved Measurements and Computational Modeling, Mach Conference 2015,
Annapolis, MD, April 8-10, 2015.
69. Co-organizer (with M. Zhou and N. Thadhani) of Symposia on Energetic
Materials: Coupling Modeling and Experiments, Mach Conference 2015,
Annapolis, MD, April 8-10, 2015.
70. Co-organizer (with K. Hackl), Symposium on Multiscale Modeling (multi-day),
4th Int. Conf. on Materials Modeling, Berkeley, CA, May 27-29, 2015.
71. Member of the Program Committee, 1st International Conference on
Computational Design and Simulation of Materials, Shenyang, China, August 17-
19, 2015.
72. Co-organizer with Z.-K. Liu of Penn State, Symposium on Data and Tools for
Materials Discovery and Design (4 days, 6 sessions), MS&T 2015, Columbus,
OH, October 5-8, 2015.
73. Co-organizer with E. Werner, R. Kienzler and S. Mueller, Workshop on
Mechanics of Materials, Mathematisches Forschungsinstitut Oberwolfach,
Oberwolfach, Germany, March 13-18, 2016.
74. Co-Organizer with S. Phillpot, S. Foiles, and M. Koslowski, Symposium CM4—
Verification, Validation and Uncertainty Quantification in Multiscale Materials,
MRS Spring Meeting, Phoenix, AZ, March 28-April 1, 2016.
75. Served as shadow vice chair of Gordon Research Conference in Physical
Metallurgy in July 2017 in Biddeford, MN; selected as co-chair of 2019 GRC in
Physical Metallurgy.
76. Co-organizer with Z.-K. Liu of Penn State, Symposium on Data and Tools for
Materials Discovery and Design (4 days, 6 sessions), MS&T 2017, Pittsburgh,
PA, October 9-12, 2017.
77. Co-organizer with S. Foiles, S. Ghosh, Stephen Foiles, Somnath Ghosh, Simon
Phillpot, Francesca Tavazza, and Tim Trucano, Workshop on Uncertainty
Quantification in Materials Science, Sandia National Laboratories, Albuquerque,
NM, December 12-13, 2017.
78. Co-Chair, NSF CMMI-Sponsored Workshop on Advanced Computing and Data
Science for Materials and Manufacturing, TMS Annual Meeting, Phoenix, AZ,
March 11, 2018.
A4. Technical Journal or Conference Referee Activities
1. ASTM Special Technical Publications, 1981-present
2. ASME J. Lubrication Technology, 1983.
3. ASME J. Engr. Matls. and Tech., 1984-present.
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4. ASME J. Pressure Vessel Tech., 1984-present.
5. ASME J. Applied Mechanics, 1984-present.
6. AIAA Journal, 1985, 1991.
7. ASCE J. Engr. Mech., 1987-present.
8. Fatigue and Fract. Engng. Mater. Struct., 1987-present.
9. Computational Mechanics, 1989-present.
10. International Journal of Plasticity, 1989-present.
11. Metallurgical Transactions, 1990-present.
12. ASME Journal of Tribology, 1990-present.
13. Mechanics Research Communications, 1990.
14. International Journal of Solids and Structures, 1990-present.
15. Int. J. Fracture, 1992-present
16. Engng. Fracture Mechanics, 1996-present
17. Acta. Metal. Mater., 1996-present
18. International Journal of Damage Mechanics, 1995-present
19. Journal of the Mechanics and Physics of Solids, 2001-present
20. Journal of Materials Science, 2001-present
21. Acta Materialia, 2001-present
22. Applied Mechanics Reviews, 2001
23. Journal of the Textile Institute, 2002
24. Mechanics of Materials, 2001-present
25. Int. Journal of Numerical Methods in Engineering, 2002-present
26. Materials Science and Engineering A, 2003-present
27. International Journal of Mechanical Sciences, 2003-present
28. Philosophical Magazine A, 2003-present
29. Applied Physics Letters, 2005-present
30. Computational Materials Science, 2007-present.
31. Modeling and Simulation in Materials Science and Engineering, 2012-present
32. Science, 2013-present
33. npj:Computational Materials, 2016-present
A5. Proposal Panels and Reviews
Reviewer of various AFOSR, NSF and DoE program and proposal competitions, as well as
MRSEC reviews/site visits. Reviewer of international proposals in UK and Europe.
A6. Other Involvement
Public and Community Service
1. Eagle Scout, Boy Scouts of America
2. One of two Nebraska Delegates to National Youth Science Camp, 1975.
3. Kiwanis Club Award of Achievement, 1975.
4. Youth group leader, University Place Christian Church, Champaign, Illinois,
1981-1982.
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5. General Board Member and Deacon, Peachtree Christian Church, Atlanta, 1986-
1990.
6. Member, First Christian Church of Atlanta, 1991-2006; Deacon, 1995-1998;
Trustee, 2000-2002; Elder, 2001-2004.
7. Den Leader, Cub Scout Pack 5528, Arbor Montessori School, Decatur, GA, 1994.
8. Co-Leader, Junior Youth Fellowship, First Christian Church of Atlanta, 1997-
1998
9. Assistant Coach, Mountain Park Methodist Church basketball league (1999)
10. Coach, Science Olympiad Team, bottle rocket device category, Trickum Middle
School, Lilburn (1999-2002), Georgia State Champions in bottle rockets, 2000
and 2002; third place overall team rating in Georgia State competition in 2000,
2002 and 2003.
11. Assistant Coach, Parkview High School Science Olympiad Team, Lilburn (five-
time Georgia High School State Champions, 2003-2007 and 2010. Coach of
several device events (rockets, robots, energy transfer systems, bridges, vehicles).
Represented Georgia at national competition at the Ohio State University in May
2003, at Juniata College in Pennsylvania in May 2004 (14th overall in USA), at
the University of Illinois at Urbana-Champaign in May 2005 (9th overall in USA),
at Indiana University in May 2006 (20th overall in USA), Wichita State University
in May 2007, and at the University of Illinois at Urbana-Champaign in May 2010.
12. Member, Peachtree Corners Christian Church, 2007-2013. Choir member and
Christian Ed team member.
13. Co-organized and hosted “Steel Day” at Northwestern University and Arcelor
Mittal for University of Nebraska Freshman Learning Community, March 17,
2008.
14. Organized and hosted “Experience Atlanta” at Georgia Tech, Lockheed, Delta
and Kiewit South for 50 students in the University of Nebraska Freshman
Learning Community, March 14-18, 2009.
15. Gave talk entitled “Throwing Down the Gauntlet – Sustaining and Enriching
Human Society into the 22nd Century and Beyond” to Parkview HS Science
National Honor Society, Lilburn, GA, September 8, 2009.
C1. Institute Committee Service
1. Member, Institute Committee on Utilization of Institutional Equipment, 1989.
2. Lectured to groups of President's Scholarship Program finalists, 1989-1990.
3. Member, Committee for the Evaluation of Academic Administrators, 1991-92.
4. Elected to the Faculty Senate, 1992-1994.
5. Elected to the Executive Board of the Institute, 1992-94.
6. Chair, Committee for Publicity Brochure Development for Materials, 1992-93
(Institute).
7. Member, Committee for Strategic Planning in Materials, 1992-93.
8. Chair, Search Committee for CERC Director, 1993-94.
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9. Chair, Materials Council, 1994-2012. In this capacity, Dr. McDowell provided
leadership for the interdisciplinary campus materials thrust with the goal to
become one of the top ten materials research and education universities.
10. Member, Provost and Vice President’s Committee for Reappointment, Promotion
and Tenure, 1996-98.
11. Member, Institute Graduate Committee, 1998-02 (through semester conversion
period).
12. Member, Committee for Revision of Policy for Post-Tenure Review, 1998.
13. Co-Chair, College of Engineering Dean’s Search Committee, 2001-02 (charged
by Provost).
14. Chair, P&T ADVANCE Committee, 2002-2003, Charged by Provost J.-L.
Chameau as part of NSF ADVANCE program at GT (Institute). The Committee
produced the report of the Georgia Tech Promotion and Tenure ADVANCE
Committee (PTAC), available on-line at
http://www.advance.gatech.edu/archive/promotion.html. Presented to Georgia
Tech Executive Board February 15, 2005.
15. Panelist on Focused Research Panel entitled Strategies and Successes of
Disciplinary and Interdisciplinary Teams, “Laying the Groundwork for
Complementary Research Teams: A Key to Successful Interdisciplinary Ventures,
Center for Women, Science and Technology, Georgia Tech, February 18, 2004.
16. Presented final report of Promotion and Tenure ADVANCE Committee (PTAC)
to 2005 NSF GT ADVANCE Conference, Atlanta, GA, March 31, 2005.
17. Chair, Governance and Commitment to Rules Compliance Subcommittee,
Georgia Tech NCAA Athletics Certification Process, 2006-07 (appointed by
President W. Clough.
18. Member, Strategic Plan Implementation Steering Committee (Institute), 2011-
2012.
19. Member, Committee to Evaluate NSF MRI white papers (Institute), 2012.
20. Chair, Search Committee for Dean of College of Sciences (Institute), 2012-2013.
21. Member, Search Committee for Director of IEN (Institute), 2013-2014.
22. Member, Search Committee for AVPR (Institute), 2013.
23. Founding Director, 2012-2013 and Executive Director, 2013-present, of the
Georgia Tech Institute for Materials, one of Tech’s Interdisciplinary Research
Institutes reporting to the Executive VP Research.
24. Co-Chair, EVPR Search Committee for the Exective Director of the Renewable
Bioproducts Institue, 2017-2018.
C2. College Committee Service
1. Member, Committee to Study the Future of ESM, 1984.
2. Member, Composite Structures and Materials Laboratory Development
Committee, 1985.
3. Member, Structural Mechanics Committee, 1985-2010; Chair, 1986-96.
4. Member, College of Engineering Long Range Planning Committee, 1989.
5. Member, Committee to Study the Future of the ESM Graduate Program, 1991.
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6. Member, Committee to Evaluate NSF PFF applicants, 1991.
7. Member, Ad Hoc Task Force for Strategic Planning and Professional Success,
1992 (Chair of Undergraduate Task Force).
8. Chair, Search Committee for Materials Science and Engineering School Director,
1992-93.
9. Associate Director (1983-1992) and Director (1992-present) of the Georgia Tech
Mechanical Properties Research Laboratory (MPRL), an interdisciplinary center
administered by OIP until 1996 and CoE thereafter. With annual research
expenditures of approximately $3M, the MPRL is among the nation's leading
university laboratories in high temperature fatigue and fracture research.
10. Participated as one of six panel members in the workshop on “Path to Promotion
and Tenure” which discussed a range of RPT issues for College of Engineering
faculty, March 10, 1999.
11. Member, CoE Dean’s Committee on planning for new summer institute concept
(1999)
12. Participated as one of six panel members in the workshop on “Path to Promotion
and Tenure” which discussed a range of RPT issues for College of Engineering
faculty, April 6, 2000.
13. Reviewer, CoE Cutting Edge Proposals, September 2000.
14. Participant and Presenter, CoE Dean’s Strategic Planning Retreat, held February
24, 2005 at GT Global Learning Center.
15. Member, Faculty Search Committee, School of Aerospace Engineering, 2009-
2010.
16. Member, MSE School Chair Recruiting Committee, 2011-2012.
17. Member, COE Regents’ Professor Selection Committee, 2013-2014, 2017-2018.
C3. School Committee Service
1. Member, Graduate Committee, 1983-84, 1988-1990 (Chair), 1995-1998 (Chair,
coordinating all aspects of quarter-to-semester graduate curriculum conversion),
2012-2014 (ME).
2. Member, Mechanics, Materials, Controls and Automation Committee, 1983-84
(ME).
3. Member, Computer Committee, 1984-85 (ME).
4. Member, Ph.D. Qualifying Exam Committees for Materials and Processing,
Mechanics of Materials, and Applied Mathematics areas, 1983-present (ME).
5. Member, Mechanical Engineering Faculty Advisory Committee, 1985-87, 1990-
1991 (Chair), 1993-94 (Chair), 1994-95, 1997-00, 2002-03, 2003-04 (Chair;
organized ME Faculty Retreat, focused on GWW School strategic plan update,
held April 27, 2004; organized Fall 2004 GWW Research Retreat).
6. Chair, Manufacturing Processes Research Group, 1985-1988 (ME).
7. Member, Faculty Awards Committee, 1986-89, 1987-88 (Chair), 1996-97, 2002-
04, 2016-18 (ME).
8. Member, Mechanical Engineering Long Range Planning Committee, 1987-88
(ME).
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9. Member, Mechanical Engineering School Director Search Committee, 1988
(ME).
10. Member, Mechanics of Materials Research Group, 1989-present (ME); Chair
until 2012.
11. Member, Mechanical Engineering Undergraduate Laboratory Committee, 1990-
1991.
12. Member, Woodruff Lecture Committee, 1989-1993; 2000-2001 (ME).
13. Member, Mechanical Engineering Long Range Planning Committee, 1991-92.
14. Member, Reappointment, Promotion and Tenure Committee, 1993-96, 1998-00,
2001-06 (Chair in 2002-03, 2005-08), 2012-2013, 2014-2015 (ME).
15. Member, Faculty Recruiting Committee, 1996-97 (ME).
16. Member, Reappointment, Promotion and Tenure Committee, 1995-99 (MSE).
17. Member, ad hoc Committee to study the structure of the post tenure review
process within ME, Fall 2000.
18. Member, Reappointment, Promotion and Tenure Committee, 2001-03 (TFE).
19. Member, Seminar Committee, 2002-03 (ME).
20. Invited Panelist, Workshop on “How to Do Research,” Mechanical Engineering
Graduate Student Association, GWW School of Mechanical Engineering, Georgia
Tech, November 11, 2003.
21. Member, Periodic Peer Review Committee, 2004-05 (ME).
22. Chair, Organizing Committee for Fall 2004 Faculty Research Retreat, held
November 30, 2004 at GT Global Learning Center (ME).
23. Member, MSE Faculty Advisory Committee, 2006-07.
24. Member, GWW School of Mechanical Engineering Chair Search Committee,
2007.
25. Chair, Search Committee for Woodruff Chair in Mechanical Systems, 2008-09
(ME).
26. Member, Faculty Search Committee, School of Materials Science and
Engineering, 2008-2010, 2012-2018.
27. Member, Selection Committee for Zeigler Outstanding Educator Award, 2009
(ME).
28. Chair, Woodruff School of Mechanical Engineering Strategic Planning
Committee, 2009-2010.
29. Chair, GT IDEA Initiative Committee, Woodruff School of Mechanical
Engineering, 2010-2012.
30. Member, MSE Committee for Strategic Planning, 2012-2013.
31. Member, MSE Strategic Plan Implementation Committee, 2013-2014.
32. Member, MSE Faculty Development and Mentoring Committee, 2015-2016.
C4. Program Development: Research (IRIs, other interdisciplinary programs)
Special Campus Research Program Development Activities
1. Director, Focused Research Program on "Mechanics and Processing of High Temperature
Composites," 1993-96. This internally funded effort involved a team of approximately
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10 faculty members from various units in an effort to develop an interdisciplinary
research program and to pursue block funding initiatives.
2. Organized two Georgia Tech Materials Forum meetings with the campus materials
research community to discuss implementation of Strategic plan in Materials area that
were held June 7, 1994 and October 6, 1994. Named first Chair of the campus-wide
Materials Council formed in Fall 1994, providing leadership for the materials thrust area
on campus from 1994 through 2012. Led the Council in support for development of team
proposals, multidisciplinary curricula in materials, facilities development and use, and
national level initiatives in materials design science and engineering. The Materials
Council served as an effective pre-cursor for the present day Institute for Materials. In
1999-2000, helped to coordinate Georgia Tech contribution to ORNL management
proposal headed by Battelle-UT in the area of materials, as well as taking lead among
core universities in the materials area. Organized and conducted a campus Materials
Council strategic planning retreat March 17, 2000. Produced Georgia Tech Strategic plan
in Materials, February 2001, and organized strategic plan update process in 2010.
3. Served as co-PI in internally funded Cutting Edge Research Project on “Fabricating,
Modeling, and Characterizing of Aluminum Hollow Sphere Foams,” jointly with T.H.B.
Sanders, Jr. (MSE) and J. Cochran (MSE), $100K, 1998-99. Contributed to a series of
proposals based on this work which led to a substantial externally sponsored
collaborative research program from DARPA/ONR in this area.
4. As Chair of GT Materials Council, co-developed Georgia Tech’s NaST initiative in
nanosciences and nanotechnology (fellowship program, seminars, etc.) jointly with Dr. J.
Zhang in Chemistry and Dr. Z.L. Wang in Materials Science and Engineering, during AY
2002-03. Implemented in AY 2003-04, within continuation of NaST Fellows program.
5. December 16, 2004, with over 45 in attendance, to promote collaboration in
nanomaterials research on campus. Final report issued in January 2005.
6. Gave talk at visit of French Lorraine region delegation ‘Research in Smart Materials and
Computational Materials Design at Georgia Tech,” Georgia Tech, September 27, 2005.
7. Visited TU-Eindhoven, “Materials at Georgia Tech: Possible Intersections of Interest,”
Eindhoven, the Netherlands, January 30, 2006.
8. Presented Materials at Georgia Tech: Overview and Introduction,” Luxembourg Public
Research Centre Henri Tudor, Luxembourg, April 27, 2006.
9. Presented “Strategic Materials Initiatives at Georgia Tech” at May 5, 2006 joint
teleconference on potential collaborative materials research opportunities with IIT-
Kharagpur.
10. Visited ORNL Computational Material Sciences Division, Oak Ridge, TN, August 30,
2006 to discuss GT-ORNL interactions.
11. Visited IIT Kharagpur to coordinate interactions in materials design, specifically with
regard to design of in situ processed Al matrix composites for submersibles, November
19-21, 2008.
12. Organized February 9, 2009 Materials Council Workshop on Economies of Scale to
discuss means of leveraging campus resources for developing materials-related research
center proposals, ethics training and effective teaming and management arrangements.
13. Gave presentation to Timken Corporation Board of Directors Chair Tim Timken
regarding “Materials at Georgia Tech: Intersections of Interest,” April 20, 2009.
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14. On behalf of GT Materials Council, co-hosted with Dr. Min Zhou the Division of
Homeland Security Site Visit on Project on cIED Effects in Materials and Materials
Research at Georgia Tech, August 14, 2009. Organized a day of materials research
presentations relevant to mitigation of damage, repair and retrofitting, including facility
tours. Involved 15 Georgia Tech faculty members with related interests (Zureick, Zhou,
McDowell, Ellingwood, Ruzzene, Santamarina, Rix, des Roches, Kurtis, Jacobs,
Thadhani, Cochran, Kalaitzidou, Doyoyo and Leon).
15. Served as a GT representative to DoE workshop on Nuclear Energy HUB in Modeling
and Simulation, Washington, DC, December 7, 2009.
16. Met with Morrocan government, business and university delegation May 19-20, 2010 at
Georgia Tech to present Tech’s broad capabilities in materials for energy, with reference
to potential for collaboration with Morrocan technology parks and the newly established
Universite Internationale de Rabat (UIR).
17. Met with officials of RTI International Metals, one of the world’s largest suppliers of
titanium alloys, to present Georgia Tech’s capabilities in characterization, experimental
studies, and modeling of Ti alloys, in conjunction with the GT Enterprise Innovation
Institute, June 28, 2010.
18. Met with visiting delegation from PERM region in Russia (university and government
delegates) to discuss potential research and education interactions, August 23-25, 2010.
19. Organized and conducted Georgia Tech Materials Council strategic planning retreat at
Stone Mountain, GA, September 20, 2010. Followed up in Fall 2010 and Spring 2011
with series of working groups and a workshop on materials characterization to firm up
recommendations to EVPR for an integrated, cross-cutting materials network at GT.
20. As PI/PD, led the development of a major multiuniversity proposal to ARL for the
Collaborative Research Alliance for Materials in Extreme Dynamic Environments, with
initial submission in March 2011, a site visit in June 2011 (not funded). At $33M per year
over 5 years in Phase I, with 5 year Phase II, this program is effectively one of the
cornerstones of the new federal initiative in the Materials Genome. It involved 48 faculty
members and researchers from six U.S. universities (Georgia Tech as lead), as well as
four U.S. national labs, two in the UK, and one in Russia.
21. Prepared summary report as an outcome of the updated campus Materials Strategic Plan
entitled “A Proposal for the Creation of: The Multiscale Materials Network@ GT
(M2N@GT)” (later termed Materials@Tech) in collaboration with Seth Marder, Ken
Sandhage and Elsa Reichmanis, May 5, 2011.
22. Organized and conducted workshop on “The Future of Materials Characterization at
Georgia Tech,” hosted by the GT Materials Council, Center for Organic Photonics and
Electronics, and the Office of the Executive Vice President for Research, Stone
Mountain, GA, April 22, 2011. Led to June 5, 2011 report to EVPR.
23. Represented Georgia Tech and gave invited presentation at the Core University Materials
Genome Initiative Workshop, Oak Ridge National Laboratory, October 26, 2011.
24. Issued recommendations to EVPR regarding costs and milestones for implementation of
Materials@Tech iniatiative, in collaboration with Seth Marder, Ken Sandhage and Elsa
Reichmanis, November 28, 2011.
25. Organized the Materials Genome Initiative (MGI) Internal Scoping Workshop, hosted by
the GT Materials Council, Georgia Tech, December 9, 2011.
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26. As PI/PD, led the development of a major $13.5M multiuniversity proposal to NNSA for
the Stewardship Security Science Alliance, submitted in March 2012 (not funded).
27. Chaired the Materials Research Institute Task Force charged by the Executive Vice
President for Research and the Deans of Engineering and Sciences in 2012, and was
appointed as Founding Director of the new Institute for Materials (IMat) in August 2012
(www.materials.gatech.edu); named Executive Director in July 2013. Position reports to
the Executive Vice President for Research. In charge of all aspects of developing IMat
structure and staffing as one of Tech’s Interdisciplinary Research Institutes (IRIs) to
constitute the Georgia Tech materials innovation ecosystem, following the roadmap
developed by the Spring 2012 MRI Task Force report. IMat has led internal workshops
to incubate new research areas at the intersection of existing Georgia Tech’s core
strengths in materials research, and has collaborated with other IRIs in energy and
manufacturing to support development of research proposals for major materials-related
proposals (over $230M in value through 2017). Cultivation of strategic industry
relationships in coordination with other IRIs is also an important component of IMat’s
activities. In addition, IMat has framed Georgia Tech’s agenda/profile in the Materials
Genome Initiative (MGI) in terms of internal materials innovation and information
initiatives, in coordination with outreach and collaboration coordinated with the White
House Office of Science & Technology Policy. In 2013-2014, IMat developed on-line
tools for accessing all materials-related research equipment at Georgia Tech, with
objectives of providing support for scheduling and billing of distributed user facilities not
presently under existing large scale center umbrellas. In 2015-2016, IMat collaborated
with IEN to form the Materials Characterization Facility, with important support and
contributions from academic units such as MSE, ME, ECE, CHEM, etc. IMat has
invested heavily in advancing leadership in materials data science and informatics,
including on-line MOOCs in high throughput materials development and materials data
science, as well as standing up a new materials data sciences institute, IDEAS:MD3, in
2016-2017.
28. As PI/PD, led the development of a major $13.1M multiuniversity proposal to NNSA for
the Stewardship Security Science Alliance, submitted in April 2017 (not funded).
C5. Program Development: Academic (certificates, etc.)
Developed the College of Engineering Multidisciplinary Certificate in Mechanical Properties of
Materials, in connection with the Mechanical Properties Reseach Laboratory, early 1990s.
http://mpcf.gatech.edu/sites/default/files/images/mechanicalpropertiescertificate.pdf
C6. Other Institute Service Contributions
Member, Institute Committee on Utilization of Institutional Equipment, 1989.
1. Lectured to groups of President's Scholarship Program finalists, 1989-1990.
2. Chair, Materials Council, 1994-2012. In this capacity, Dr. McDowell provided
leadership for the interdisciplinary campus materials thrust with the goal to
become one of the top ten materials research and education universities.
3. Panelist on Focused Research Panel entitled Strategies and Successes of
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Disciplinary and Interdisciplinary Teams, “Laying the Groundwork for
Complementary Research Teams: A Key to Successful Interdisciplinary Ventures,
Center for Women, Science and Technology, Georgia Tech, February 18, 2004.