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T. J. McGrath, Ph.D. M.G. Katona, Ph.D.
NCHRP 15-54AASHTO T-13 UpdateTHOMAS P. MURPHY, PHD, P.E. – MODJESKI & MASTERS
(FOR) MARK MLYNARSKI, P.E. – MICHAEL BAKER INTERNATIONAL
T. J. McGrath, Ph.D. M.G. Katona, Ph.D.
Disclaimer
This investigation was sponsored by TRB under the NCHRP Program. Data reported are work in progress. The contents of this presentation has not been reviewed by the project panel or NCHRP, nor do they constitute a standard, specification, or regulation.
T. J. McGrath, Ph.D. M.G. Katona, Ph.D.
Overview of Research Effort Survey Results Literature Review Analysis
3D Efforts2D Efforts
Field Testing Q&A
T. J. McGrath, Ph.D. M.G. Katona, Ph.D.
Survey - General
Timeframe August/SeptemberNumber of responses: 4216 Interviews conducted
T. J. McGrath, Ph.D. M.G. Katona, Ph.D.
SurveyResponses – Coverage: 37 states
T. J. McGrath, Ph.D. M.G. Katona, Ph.D.
SurveyResults
Concrete culverts used extensively
T. J. McGrath, Ph.D. M.G. Katona, Ph.D.
SurveyResults – Notable Items Several states reporting concrete culverts
not rating well (yet no distress observed) Seven states are using ODOT’s metal
corrugated spreadsheet Large fill heights often present a problem
– culverts fail under DL (shouldn’t be a load rating issue)
AASHTOWare BrDR used by many states for culvert rating
Several states use BRASS
T. J. McGrath, Ph.D. M.G. Katona, Ph.D.
Literature Review
T. J. McGrath, Ph.D. M.G. Katona, Ph.D.
Culvert Types Concrete
Pipe – circular and arch
box sections and flat topped 3-sided
Arches and arch topped 3-sided
Metal Pipe (round, arch, pear, high profile)
Open bottom – box and arch
Long-span – (with and without stiffeners)
Deep corrugated
Plastic Corrugated, solid wall
Literature Review
T. J. McGrath, Ph.D. M.G. Katona, Ph.D.
Data collected as part of Survey Effort Collection of CalTrans BrDR culvert
filesParametric study140 files (each with varying covers)
Tennessee BRASS files Other BrDR files
Literature Review
T. J. McGrath, Ph.D. M.G. Katona, Ph.D.
Analysis/Modelling3D AND 2D MODELING
T. J. McGrath, Ph.D. M.G. Katona, Ph.D.
3D Modeling Objectives
Better capture structural behavior and non-linear effects including Soil Structure Interaction
Relate/Calibrate Detailed 3D models to 2D analyses such that most of the analytical work can be done in 2D, i.e., CANDE
2D more efficient Automation possible
3D modeling of Field Testing culverts – better understanding of data obtained from field
Analysis/ Modeling
T. J. McGrath, Ph.D. M.G. Katona, Ph.D.
3D Modeling Procedures
Non-Linear analysis required due to materials (cracked concrete, soil), multiple loading stages and culvert buckling
Shell elements used for culverts and pavements Solid elements with Mohr-Coulomb failure criteria
for surrounding soil Loading due to culvert self-weight, soil, and truck
wheel loads Culvert modeled for full length along axis of
culvert, transverse and vertical directions similar to that used in previous NCHRP studies
Analysis/ Modeling
T. J. McGrath, Ph.D. M.G. Katona, Ph.D.
3D Models - Next Steps
Document detailed approach for 3D modeling of culverts, including non-linear analysis properties
Initial development of 3D models of selected existing culverts to compare with experimental results
Perform necessary analyses and provide information to those performing CANDE analysis for calibrating of 2D CANDE models to 3D LUSAS models.
Analysis/ Modeling
T. J. McGrath, Ph.D. M.G. Katona, Ph.D.
2D Models
Use of 2D for this project.CANDE AASHTOWare BrDROhio DOT spreadsheet (steel)
Analysis/ Modeling
T. J. McGrath, Ph.D. M.G. Katona, Ph.D.
2D ModelsHow are they used?CANDE Relate/Calibrate Detailed 3D
models to 2D analyses such that most of the analytical work can be done in 2D, i.e., CANDE
2D more efficientAutomation possible
Analysis/ Modeling
T. J. McGrath, Ph.D. M.G. Katona, Ph.D.
2D ModelsSummary CANDE Modifications
Full Mesh Option Allows Non-symmetric Loading (such as multiple
wheel loads)
Pavement Analysis Moving Loads
Up to 10 Axles
Permanently Minimize Bandwidth Increase speed for parametric studies/automation
Extract Load Rating Results Including controlling load position
Analysis/ Modeling
T. J. McGrath, Ph.D. M.G. Katona, Ph.D.
2D ModelsHow are they used?AASHTOWare BrDRODOT SpreadsheetRegression TestingProposing a simplified spec
from a more complex analysis and seeing how it works in practice
Analysis/ Modeling
T. J. McGrath, Ph.D. M.G. Katona, Ph.D.
2D ModelsHow are they used? Regression Testing
Run with current spec (benchmark)Modify for proposed revisionsCompare the regressionRegression tool – NCHRP 12-50
processHave received AASHTO’s permission
to use BrDR for this project
Analysis/ Modeling
T. J. McGrath, Ph.D. M.G. Katona, Ph.D.
EVALUATING PAVEMENT INFLUENCEIN LOAD-RATING BURIED CULVERTS
A Preliminary StudyforNCHRP 15-54
Analysis/ Modeling
T. J. McGrath, Ph.D. M.G. Katona, Ph.D.
OBJECTIVE and SCOPE
ObjectiveUsing CANDE, investigate influence of pavement stiffness on load-rating factor RF due to in-plane load spreading. (Out-of-plane load spreading is not considered in this study.)
Scope1. Pavement conditions:
● None● Modest (thickness = 8”, modulus = 200,000 psi)● Heavy (thickness = 12”, modulus = 1,000,000 psi)
2. Vehicle classes: (moving)● HL93 Design truck (72 kips, 3 axles, 14’ heavy-axle spacing)● HL93 Tandem truck (58 kips, 3 axles, 4’ heavy-axle spacing)
3. Culvert installations (6’ diameter, 2’ soil cover):● Reinforce concrete● Corrugated steel● Plastic profile pipe
Analysis/ Modeling
T. J. McGrath, Ph.D. M.G. Katona, Ph.D.
ILLUSTRATION of CANDE MODELS
Models = (2 Truck classes) x (3 Culvert types) x (3 Pavement conditions) = 18
Moving vehicles = 5 positions of middle axle to find max culvert distress
Analysis/ Modeling
T. J. McGrath, Ph.D. M.G. Katona, Ph.D.
Summary of Pavement Influence
Pipe Type
RF % increaseVersus No Pavement
Modest Pavement
HeavyPavement
Steel 147%24%
183%78%
Concrete 42%2%
71%47%
Plastic 63%49%
111%145%
Design Truck Tandem Truck
Design Truck Tandem Truck
Design Truck Tandem Truck
Pavement models can improve RF load rating.
Analysis/ Modeling
T. J. McGrath, Ph.D. M.G. Katona, Ph.D.
Pavement Issues to be Explored
• Pavement modulus values (e.g. temperature effect of asphalt pavement)
• Influence of backfill stiffness, methods of determining backfill stiffness.
• Characterization of Pavement Condition
Analysis/ Modeling
T. J. McGrath, Ph.D. M.G. Katona, Ph.D.
Field Testing
T. J. McGrath, Ph.D. M.G. Katona, Ph.D.
Field Testing Survey yielded information on testing conducted by other
states Testing performed in Kansas, Missouri, Delaware, others Make use of prior test results where possible Participating states have provided lists of potential culverts Review plan sets from lists of culverts provided by DOTs
Field Testing
T. J. McGrath, Ph.D. M.G. Katona, Ph.D.
Field Test Objectives
Evaluate special conditions Pavement – new and old
Aging culverts
Evaluate conservatism in design methods Provide data for computer model validation
Field Testing
T. J. McGrath, Ph.D. M.G. Katona, Ph.D.
Criteria used for site selection
Structures that are not rating properly Structures with low fill depths No plastic pipe
MN-DOT study indicates good performance
Not widely used under high volume roads
Field Testing
T. J. McGrath, Ph.D. M.G. Katona, Ph.D.
Initial Target StructuresMajor group Sub-group Category Typical Sizes
(ft)Target Test Structures
Reinforced concrete
Box sections Precast 4-20+ 8-12 ft spans
CIP 4-20+ 10-20 ftPipe <12Three-sided Flat top <30
Arch top <48 24-36 ft span
Arches Precast >10CIP >10
Corrugated metal
Pipe <12 10 ft diameter
Long-span 6x2 <30 30 ft spandeep corr. <75 40 ft span
Box sections 6x2 steel/alum. <366x2 steel/alum. <25deep corr. <23
Field Testing
T. J. McGrath, Ph.D. M.G. Katona, Ph.D.
Current targets
Concrete boxes Use for pavement evaluation Use for new vs old evaluation
Metal arches 6 x 2 corrugations, low fill
Metal box sections Large top radius, controlled by flexure
Field Testing
T. J. McGrath, Ph.D. M.G. Katona, Ph.D.
Field test challenges
Getting comparable data for pavement evaluation
Monitoring concrete box sections (low strains and displacements)
Field Testing
T. J. McGrath, Ph.D. M.G. Katona, Ph.D.
Q&A
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