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Basaveshwar Engineering College, Bagalkot 2012-2013
Department of Industrial and Production Engineering Syllabus 1
Vision
To be recognized as a premier technical institute committed to develop exemplary professionals, offering research
based innovative solutions and inspiring inventions for holistic socio economic development
Mission
To pursue excellence through student centric dynamic teaching-learning processes, encouraging freedom of
inquiry and openness to change
To carry out innovative cutting edge research and transfer technology for industrial and societal needs
To imbibe moral and ethical values and develop compassionate, humane professionals
VISION AND MISSION OF THE DEPARTMENT
Vision
To be recognized and respected as a centre of excellence in Industrial and Production Engineering education,
research and practice
Mission
To prepare globally competent professionals in the field of Industrial and Production Engineering, by
imparting total quality technical education and training, to make them leaders in industry and community
To develop research interest and provide necessary support for pursuing it, and to disseminate the knowledge
to the society
PROGRAMME EDUCATIONAL OBJECTIVES(PEO’s)
1. To equip the students to have a successful career in manufacturing, service, R and D and academic
professions so as to meet the global challenges.
2. To inculcate the professional skills amongst the students in the design, manufacture, maintenance, quality
and computational aspects of products and services.
3. To provide knowledge that enables the students to get the required inputs to become competent industrial
engineers and managers acceptable to the present day industries.
4. To promote student‟s lifelong learning skills, entrepreneurial ability, ethical practices, creativity and
communication.
5. To strengthen the knowledge of students in multi-disciplinary areas of engineering.
PROGRAMME OBJECTIVES(PO’s)
1. Ability to apply knowledge of mathematics, science, and engineering
2. Ability to design and conduct experiments, as well as to analyze and interpret data
3. Ability to design a system, component, or process to meet desired needs of the society
4. Ability to function in multi-disciplinary teams
5. Ability to identify, formulate, and solve engineering problems
6. Understand professional and ethical responsibility
7. Ability to communicate effectively
8. Understand the impact of engineering solutions in a global, economic, environmental, and societal
context
9. Demonstrate the knowledge of engineering management and finance
10. Recognition of the need for, and an ability to engage in life-long learning
11. Ability to use the techniques, skills, and modern engineering tools necessary for engineering practice
12. Ability to develop a sense of personal, social, and moral responsibility
BASAVESHWAR ENGINEERING COLLEGE, BAGALKOT
Basaveshwar Engineering College, Bagalkot 2012-2013
Department of Industrial and Production Engineering Syllabus 2
DEPARTMENT OF INDUSTRIAL AND PRODUCTION ENGINEERING
SCHEME OF TEACHING AND EXAMINATION
B.E. (I&PE) III SEMESTER
Sl Code Subjects Credits Hours/week Examination
Marks
Lecture Tutorial Practical CIE SEE Total
1 UMA301C Engineering Mathematics –III 4 4 - - 50 50 100
2 UIP302C Material Science & Metallurgy 3 3 - - 50 50 100
3 UIP312C Fluid Mechanics and Machines 4 4 - - 50 50 100
4 UIP315C Foundry and welding Technology 3 3 - - 50 50 100
5 UIP320C Strength of Materials 4 3 2 - 50 50 100
6 UIP321C Machine Tools 4 4 - - 50 50 100
7 UIP316L
Metallography and Material Testing
Laboratory 1 - - 2 50 50 100
8 UIP317L Foundry and Welding Practice 1 - - 2 50 50 100
9 UIP322L Machine Shop Practice 1.5 - - 3 50 50 100
Total 25.5 21 2 7 450 450 900
Question Paper Pattern:
1. Total of Eight Questions with TWO from each UNIT to be set uniformly covering the entire syllabus.
2. Questions can be mixed amongst the chapters specified under each UNIT.
3. Each question should not have more than 4 sub divisions
4. Any five full questions are to be answered choosing at least one from each UNIT.
Basaveshwar Engineering College, Bagalkot 2012-2013
Department of Industrial and Production Engineering Syllabus 3
Title of Subject : Material Science And Metallurgy Subject Code : UIP302C
Credits : 03 Contact Hours/ Week : 03(3-0-0)
Total Hours : 40 Tutorial Hours :
CIE Marks : 50 SEE Marks : 50
Table: Correlation Matrix of Course Outcomes with Programme Outcomes
a b c D e f g h i j k l
No
Programme Outcomes
Course Outcomes
Ab
ilit
y t
o a
pp
ly k
no
wle
dg
e o
f m
ath
emat
ics,
scie
nce
, an
d e
ngin
eeri
ng
Ab
ilit
y t
o d
esig
n a
nd
con
du
ct e
xper
imen
ts,
as
wel
l as
to
an
aly
ze a
nd
in
terp
ret
d
ata
Ab
ilit
y t
o d
esig
n a
sy
stem
, co
mpo
nen
t, o
r p
roce
ss
to m
eet
des
ired
nee
ds
of
the
soci
ety
Ab
ilit
y t
o f
un
ctio
n o
n m
ult
i-d
isci
pli
nar
y t
eam
s
Ab
ilit
y t
o i
den
tify
, fo
rmu
late
, an
d s
olv
e
eng
inee
ring
pro
ble
ms
Un
der
stan
d p
rofe
ssio
nal
and
eth
ical
res
po
nsi
bil
ity
Ab
ilit
y t
o c
om
mu
nic
ate
effe
ctiv
ely
Un
der
stan
d t
he
imp
act
of
eng
inee
rin
g s
olu
tion
s in
a g
lob
al,
eco
no
mic
, en
vir
on
men
tal,
an
d s
oci
etal
con
tex
t
Dem
on
stra
te t
he
kn
ow
ledg
e o
f en
gin
eeri
ng
man
agem
ent
and
fin
ance
Rec
og
nit
ion o
f th
e n
eed f
or,
an
d a
n a
bil
ity
to
eng
age
in l
ife-
long
lea
rnin
g
Ab
ilit
y t
o u
se t
he
tech
niq
ues
, sk
ills
, an
d m
od
ern
eng
inee
ring
to
ols
nec
essa
ry f
or
eng
inee
rin
g
pra
ctic
e
Ab
ilit
y t
o d
evel
op
a s
ense
of
per
son
al,
soci
al,
and
mo
ral
resp
on
sib
ilit
y
1 Ability to apply advanced
science (such as Chemistry
and Physics) and engineering
principles to materials
systems
√ √ √ √ √
√
√
2 Ability to design, operate
various machines and conduct
various experiments, and to
analyze data
√ √ √ √ √
√
√
3 An integrated understanding
of the scientific and
engineering principles
underlying the four major
elements of the field of
Metallurgical and Materials
Engineering, namely
structure, properties,
processing and performance
related to materials systems
approach
√ √ √ √ √
√
4 An ability to apply and
integrate knowledge from
each of the four elements of
the field (structure, properties,
processing and performance)
to solve materials selection,
design problems and
metallurgy related study
√ √ √ √ √
√
√
5 An ability to utilize
experimental, statistical and
computational methods
consistent with the goals of
the program
√ √ √ √ √ √ √
Basaveshwar Engineering College, Bagalkot 2012-2013
Department of Industrial and Production Engineering Syllabus 4
UIP302C: MATERIAL SCIENCE AND METALLURGY
UNIT I
Structure of Crystalline Solids - Concept of UNIT cell, metallic crystal structures, Calculations of atomic radius,
Coordination number and Atomic Packing Factor for different cubic structures.
Crystal imperfections - Point, line, surface and volume defects,
Atomic Diffusion - Phenomenon, Flick‟s Ist
and IInd
law of diffusion, factors influencing diffusion, Plastic
Deformation of Single crystals, Slip and Twinning. 10 Hours
UNIT II
Mechanical Properties of Metals - Concepts of stress and strain, Tension test- True stress and True strain,
Compression test, Notch impact test- Izod and Charpy, Hardness test Brinell, Vickers and Rockwell, Fatigue -
Fatigue test- fatigue loadings, S-N Diagram and fatigue properties, Failure - Failure of metals, fracture -
fundamentals of fractures, types - ductile, brittle, mechanisms of ductile fracture, Griffith‟s theory of brittle
fracture, Creep - The creep curves, mechanism of creep, creep resistant materials. 10 Hours
UNIT III
Solidification - Mechanism of solidification, Homogeneous and Heterogeneous solidification, Crystal growth,
Cast metal structures, Solid solutions and Phase Diagrams, Solid solution - types, rules governing the formation
of solids solutions, Phase diagrams - basic terms, phase rule, cooling curves, construction of phase diagrams,
Interpretation of equilibrium diagrams, types of phase diagrams, Lever rule. 10 Hours
UNIT IV
Iron Carbon System - Salient features of Iron and Carbon, Allotropic forms of Iron Carbon equilibrium diagram,
phases in the Fe-C system, Invariant reactions, TTT curves, drawing of TTT diagram, CCT diagram.
Heat Treatment - Annealing and its types, normalizing, hardening, tempering, martemering, austmpering, surface
hardening, like case hardening, carburizing, cynading, nitriding, induction hardening, hardenability, Jominy end-
quench test, age hardening of Al & Cu alloys.
Ferrous and Non-ferrous Materials - Steel, Cast Irons, Copper and its alloys, Aluminum and its alloys,
Magnesium and its alloys. 12 Hours
Text Books:
1. “Materials Science and Engineering - An introduction”, William. D. Callister Jr Wiley India Pvt. Ltd. 7th
Edition, 2006, New Delhi.
2. “Essentials of Materials for Science and Engineering”, Donald R. Askeland, Pradeep P. Phule, Thomson
Engineering, 2006, (India Edition).
3. Mechanical Metallurgy by George E. Dieter, Adapted by David Bacon, (SI Metric Edition), McGraw-Hill
Book Company.
Reference Books:
1. “Introduction to Material Science for Engineering”, 6th Edition, James F. Shackel Ford, Pearson, Prentice
Hall, New Jersey 2006.
2. “Physical Metallurgy, Principles and Practices”. , V. Raghavan.PHI 2nd
Edition 2006, New Delhi.
3. “Foundation of Material Science and Engineering”, Smith, 3rd
Edition Mc Graw Hill, 1997.
4. “A Text Book on Material Science and Metallurgy” by O. P. Khanna, Dhanpat Rai Publications (P) Ltd, New
Delhi.
5. Elements of Material Science and Engineering by Van Vlack, 6th
Edition, Addison Wesley Publishing
Company.
6. Material Science and Metallurgy by C. Daniel Yesudian, D. G. Harris Samuel, Scitech Publications (India),
Pvt. Ltd., Chennai.
Basaveshwar Engineering College, Bagalkot 2012-2013
Department of Industrial and Production Engineering Syllabus 5
Title of Subject : Fluid Mechanics and Machines Subject Code : UIP312C
Credits : 04 Contact Hours/ Week : 04(4-0-0)
Total Hours : 52 Tutorial Hours :
CIE Marks : 50 SEE Marks : 50
Table: Correlation Matrix of Course Outcomes with Programme Outcomes
a b c d e f g h i j k l
No
Programme Outcomes
Course Outcomes
Ab
ilit
y t
o a
pp
ly k
no
wle
dg
e o
f m
ath
emat
ics,
scie
nce
, an
d e
ngin
eeri
ng
Ab
ilit
y t
o d
esig
n a
nd
con
du
ct e
xper
imen
ts,
as
wel
l as
to
an
aly
ze a
nd
in
terp
ret
d
ata
Ab
ilit
y t
o d
esig
n a
sy
stem
, co
mpo
nen
t, o
r p
roce
ss
to m
eet
des
ired
nee
ds
of
the
soci
ety
Ab
ilit
y t
o f
un
ctio
n o
n m
ult
i-d
isci
pli
nar
y t
eam
s
Ab
ilit
y t
o i
den
tify
, fo
rmu
late
, an
d s
olv
e
eng
inee
ring
pro
ble
ms
Un
der
stan
d p
rofe
ssio
nal
and
eth
ical
res
po
nsi
bil
ity
Ab
ilit
y t
o c
om
mu
nic
ate
effe
ctiv
ely
Un
der
stan
d t
he
imp
act
of
eng
inee
rin
g s
olu
tion
s in
a g
lob
al,
eco
no
mic
, en
vir
on
men
tal,
an
d s
oci
etal
con
tex
t
Dem
on
stra
te t
he
kn
ow
ledg
e o
f en
gin
eeri
ng
man
agem
ent
and
fin
ance
Rec
og
nit
ion o
f th
e n
eed f
or,
an
d a
n a
bil
ity
to
eng
age
in l
ife-
long
lea
rnin
g
Ab
ilit
y t
o u
se t
he
tech
niq
ues
, sk
ills
, an
d m
od
ern
eng
inee
ring
to
ols
nec
essa
ry f
or
eng
inee
rin
g
pra
ctic
e
Ab
ilit
y t
o d
evel
op
a s
ense
of
per
son
al,
soci
al,
and
mo
ral
resp
on
sib
ilit
y
1 Comprehend the physical
properties of the fluids, the
pressure and its measurement, the
forces acing on the submerged
areas and equilibrium of floating
and submerged bodies.
√ √ √ √ √
√ √
2 Using dimensional analysis
techniques simulate the hydro
mechanical systems and establish
the inter relationship between the
influencing parameters through
mathematical modeling.
√
√ √ √
√ √
3 Understand the motion
characteristics of fluids through
well established mathematical
models.
√
√ √ √
√ √
4 Simulate the fluid systems under
influence of dynamic forces based
on conservation of energy.
√ √ √ √ √
√ √
5 Know the constructional details
and use of flow measuring
devices.
√ √ √ √ √ √ √
6 Understand the characteristics of
fluids flowing through pipes,
flowing past immersed bodies etc
through well established
mathematical models.
√ √ √ √ √ √ √
7 Gain the knowledge of basic
principles behind the functioning
of turbines and pumps.
√ √ √ √ √ √ √
Basaveshwar Engineering College, Bagalkot 2012-2013
Department of Industrial and Production Engineering Syllabus 6
UIP312C: FLUID MECHANICS AND MACHINES
UNIT I
Properties of fluids - Viscosity and Kinematic viscosity, Types of fluids, Compressibility and Bulk modulus,
Surface tension and Capillary, Vapour pressure and Cavitation, Pressure and Its Measurement - Fluid pressure
at a point, Pascal‟s law, Pressure variation in a fluid at rest, Absolute, Gauge, Atmospheric and Vacuum pressures,
Simple and Differential manometers, Hydrostatic Forces on Surfaces, Total pressure and Centre of pressure,
Vertical and Horizontal plane surface submerged in liquid, Hydrostatic forces on surfaces, vertical plane,
horizontal plane and curved surfaces. Buoyancy and Floatation - Buoyancy, Centre of buoyancy, Metacentre and
Metacentric height, Conditions of equilibrium of floating and submerged bodies. 14 Hours
UNIT II
Dimensional Analysis - Derived quantities, Dimensional homogeneity, Buckingham‟s π theorem.
Fluid Kinematics - Types of fluid flow, Continuity equation, Continuity equation in three dimensions, Velocity
and Acceleration, Velocity potential function and Stream function, Fluid Dynamics, Equation of motion, Euler‟s
equation of motion, Bernoulli‟s equation from Euler‟s equation and Bernoulli‟s equation for real fluid.
10 Hours
UNIT III
Fluid Flow Measurements - Venturimeter, Orifice meter and Pilot tube, Flow Through Pipes, Loss of Energy in
pipes, Darcy-Weisbach equation for loss of head due to friction in pipes, Chezy‟s equation for loss of head due to
friction in pipes, Hydraulic gradient and Total energy line, Laminar flow and Viscous flow, Reynolds‟s number,
Critical reynolds‟s number, Laminar flow through circular pipe, Hagen poiseulle‟s equation, Laminar flow
between parallel and stationary plates, Flow past immersed bodies, Drag and Lift - Expression for drag and lift,
pressure and friction drag, Boundary layer flow-Introduction and definitions. 14 Hours
UNIT IV
Hydraulic Machines and Turbines - Classification of hydraulic turbines, Pelton wheel, Reaction turbine, Francis
turbine, Kaplan turbine, Draft tube, Specific speed, Governing of turbines, Centrifugal pumps, work done by
centrifugal pump, definitions of head and efficiencies of centrifugal pump, multistage centrifugal pump, priming
of a centrifugal pump, Reciprocating pumps, classification, Air vessels. 14 Hours
Text Books:
1. “A Text Book of Fluid Mechanics and Hydraulic Machines” by Dr, R. K. Bansal (SI UNITs), Lakshmi
Publications (P) Ltd., New Delhi, 2005.
2. “Fluid Mechanics and Hydraulics” by Dr, Jagadish Lal (SI UNITs and MKS UNITs)- 9th
Edition,
Metropolitan Book Co Pvt. Ltd., New Delhi. 1995.
Reference Books:
1. 1000 Solved Problems in Fluid Mechanics (Includes Hydraulic Machines) by K. Subramanya, Tata McGraw-
Hill Publishing Company Ltd., New Delhi, 2005.
2. Introduction to Fluid Mechanics and Fluid Machines by S. K. Som, G. Biswas, 2nd
Edition, Tata McGraw-Hill
Publishing Company Ltd., New Delhi.
3. Hydraulics and Fluid Mechanics including Hydraulic Machines by Dr. P. N. Modi, Dr. S. M. Seth, (SI
UNITs), Standard Book house, New Delhi- 5th
Edition-2005.
4. “Fluid Mechanics (SI UNITs) by Yunus A. Chingel John M. Oimbala, Tata MaGrawHill, 2006.
5. “Fluid Mechanics” by Oijush K. Kundu, Iram Cochen, Elsevier 3rd
edition 2005.
6. “Fluid Mechanics” by White, 5th
edition, Tata M Graw –Hill Publishing Company Ltd. 2003.
7. “Fluid Mechanics” by Dr. A. K. Jain, Khanna Publishers, New Delhi.
Basaveshwar Engineering College, Bagalkot 2012-2013
Department of Industrial and Production Engineering Syllabus 7
Title of Subject : Foundry & Welding Technology Subject Code : UIP315C
Credits : 03 Contact Hours/ Week : 03(3-0-0)
Total Hours : 40 Tutorial Hours :
CIE Marks : 50 SEE Marks : 50
Table: Correlation Matrix of Course Outcomes with Programme Outcomes
a b c d e f g h i j k l
No
Programme Outcomes
Course Outcomes
Ab
ilit
y t
o a
pp
ly k
no
wle
dg
e o
f m
ath
emat
ics,
scie
nce
, an
d e
ngin
eeri
ng
Ab
ilit
y t
o d
esig
n a
nd
con
du
ct e
xper
imen
ts,
as
wel
l as
to
an
aly
ze a
nd
in
terp
ret
d
ata
Ab
ilit
y t
o d
esig
n a
sy
stem
, co
mpo
nen
t, o
r p
roce
ss
to m
eet
des
ired
nee
ds
of
the
soci
ety
Ab
ilit
y t
o f
un
ctio
n o
n m
ult
i-d
isci
pli
nar
y t
eam
s
Ab
ilit
y t
o i
den
tify
, fo
rmu
late
, an
d s
olv
e
eng
inee
ring
pro
ble
ms
Un
der
stan
d p
rofe
ssio
nal
and
eth
ical
res
po
nsi
bil
ity
Ab
ilit
y t
o c
om
mu
nic
ate
effe
ctiv
ely
Un
der
stan
d t
he
imp
act
of
eng
inee
rin
g s
olu
tion
s in
a g
lob
al,
eco
no
mic
, en
vir
on
men
tal,
an
d s
oci
etal
con
tex
t
Dem
on
stra
te t
he
kn
ow
ledg
e o
f en
gin
eeri
ng
man
agem
ent
and
fin
ance
Rec
og
nit
ion o
f th
e n
eed f
or,
an
d a
n a
bil
ity
to
eng
age
in l
ife-
long
lea
rnin
g
Ab
ilit
y t
o u
se t
he
tech
niq
ues
, sk
ills
, an
d m
od
ern
eng
inee
ring
to
ols
nec
essa
ry f
or
eng
inee
rin
g
pra
ctic
e
Ab
ilit
y t
o d
evel
op
a s
ense
of
per
son
al,
soci
al,
and
mo
ral
resp
on
sib
ilit
y
1 Gain the basic knowledge about
different types of manufacturing
processes.
√ √
√ √
2 Gain the knowledge to Preparation
of different types moulds √ √ √
√
√ √
3 Gain the knowledge of casting &
its defects √ √
√
√ √ √
4 Identify quality welding design
and workmanship. √ √ √
√
5 Demonstrate competency in the
ability to select, care for, and use
industrial products wisely.
√ √ √
6 Identify materials and processes
commonly used in welding. √ √ √
7 Demonstrate ability to use welding
tools and machines √ √ √
Basaveshwar Engineering College, Bagalkot 2012-2013
Department of Industrial and Production Engineering Syllabus 8
UIP315C:FOUNDRY AND WELDING TECHNOLOGY
UNIT-I
Introduction: Concept of Manufacturing process, its importance. Classification of Manufacturing processes.
Introductions to Hot & Cold working, forging, rolling, extrusion process & drawing operation.
Patterns: Introduction to Casting process & steps involved. Advantages & Limitations of casting process.
Definition, Classification of patterns, Pattern materials. And various pattern allowances.
12 Hours
UNIT-II
Sand Moulding and Methods: Types of base sand, requirement of base sand. Types of sand moulds, properties.
Ingredient of moulding sands. Core sands, ingredients and properties. Method used for sand moulding.
Special moulding Process: Study of important moulding processes, Green sand, Core sand, Dry sand, Sweep
mould, CO2 sand, Shell mould, Investment casting; Metal moulds: Gravity die-casting, Pressure die casting,
centrifugal casting, Squeeze Casting, Slush casting, Thixocasting and continuous casting processes.
12Hours
UNIT-III
Welding process: Definition, Principles, Classification, Application, Advantages & limitations of welding.
Arc Welding: Principle and Classifications.
Gas Welding: Principle, Oxy – Acetylene welding, Reaction in Gas welding, Flame. Flame characteristics.
08 Hours
UNIT-IV
Special type of welding: Resistance welding- principles and types. Friction welding, Explosive welding, Thermit
welding, Laser welding and Electron beam welding. 08 Hours
Text Books:
1. “Manufacturing Technology: Foundry Forming and Welding”, P.N.Rao 2nd
Ed., Tata McGraw Hill,
2003.ISBN:0-07-463180-2
2. “Foundry Techology ”, by R. K.Jain -4th Edition, Tata McGraw hill, 2003. ISBN-0-07-044760-8
Reference Books:
1. “Manufacturing Technology”, Serope Kalpakjain, Steuen.R.Sechmid, Pearson Education Asia, 5th Ed.
2006.ISBN: 81-7808-157-1
2. “Process and Materials of Manufacturing:, Roy A Lindberg, 4th Ed. Pearson Edu. 2006.-ISBN-81-203-
0663-5
3. Introduction to Manufacturing Processes by John. A. Schey, McGraw Hill, 3rd
Edition, 2000.
4. Modern Manufacturing Process by Grover
Basaveshwar Engineering College, Bagalkot 2012-2013
Department of Industrial and Production Engineering Syllabus 9
Title of Subject : Strength of Materials Subject Code : UIP320C
Credits : 04 Contact Hours/ Week : 03(3-2-0)
Total Hours : 52 Tutorial Hours : 02
CIE Marks : 50 SEE Marks : 50
Table: Correlation Matrix of Course Outcomes with Programme Outcomes
a b c d e f g h i j k l
No
Programme Outcomes
Course Outcomes
Ab
ilit
y t
o a
pp
ly k
no
wle
dg
e o
f m
ath
emat
ics,
scie
nce
, an
d e
ngin
eeri
ng
Ab
ilit
y t
o d
esig
n a
nd
con
du
ct e
xper
imen
ts,
as
wel
l as
to
an
aly
ze a
nd
in
terp
ret
d
ata
Ab
ilit
y t
o d
esig
n a
sy
stem
, co
mpo
nen
t, o
r p
roce
ss
to m
eet
des
ired
nee
ds
of
the
soci
ety
Ab
ilit
y t
o f
un
ctio
n o
n m
ult
i-d
isci
pli
nar
y t
eam
s
Ab
ilit
y t
o i
den
tify
, fo
rmu
late
, an
d s
olv
e
eng
inee
ring
pro
ble
ms
Un
der
stan
d p
rofe
ssio
nal
and
eth
ical
res
po
nsi
bil
ity
Ab
ilit
y t
o c
om
mu
nic
ate
effe
ctiv
ely
Un
der
stan
d t
he
imp
act
of
eng
inee
rin
g s
olu
tion
s in
a g
lob
al,
eco
no
mic
, en
vir
on
men
tal,
an
d s
oci
etal
con
tex
t
Dem
on
stra
te t
he
kn
ow
ledg
e o
f en
gin
eeri
ng
man
agem
ent
and
fin
ance
Rec
og
nit
ion o
f th
e n
eed f
or,
an
d a
n a
bil
ity
to
eng
age
in l
ife-
long
lea
rnin
g
Ab
ilit
y t
o u
se t
he
tech
niq
ues
, sk
ills
, an
d m
od
ern
eng
inee
ring
to
ols
nec
essa
ry f
or
eng
inee
rin
g
pra
ctic
e
Ab
ilit
y t
o d
evel
op
a s
ense
of
per
son
al,
soci
al,
and
mo
ral
resp
on
sib
ilit
y
1 Understand the physical properties of
the materials such as stresses, strains,
elasticity, plasticity etc and the laws
governing their behavior within the
elastic limit.
√ √ √
2 Gain the knowledge required to
estimate the extension /shortening of
mechanical elements for the possible
cases of bars subjected to different
types of loads, varying cross section,
compounded bars, self weight
becoming significant, influenced by
signific
√ √ √ √ √ √ √
3 Develope the skill to analyze the
bending of beams of different cross
sections and subjected to varied
conditions of loading. Also to
determine bending moments, shear
forces, shear and bending stresses etc
of such mechanical elements.
√ √ √ √ √ √ √
4 Comprehend the deflection and
inclination of beams subjected to
bending. √ √ √ √ √ √ √
5 Analyze the cylinders exposed to
internal and external pressures from
the view point of stresses developed
and change in their dimensions.
√ √ √ √ √ √ √
6 Know the stresses developed and the
rigidity of the mechanical elements
transmitting power or subjected to
twisting moment.
√ √ √ √ √ √ √
7 Simulate the mechanical elements
receiving axial compressive loads
under different end conditions and
determine their columnar stability.
√ √ √ √ √ √ √
8 To work in teams to simulate and
analyze the mechanical members and
solve the problems numerically and
obtain the logical solutions.
√ √ √ √ √ √
Basaveshwar Engineering College, Bagalkot 2012-2013
Department of Industrial and Production Engineering Syllabus 10
UIP320C: STRENGTH OF MATERIALS
UNIT -I
Simple stress and strain: Stress, Strain, Mechanical properties of materials, Hooke‟s Law, Poisson‟s ratio,
Stress-Strain relation , Extension / Shortening of a bar, Bars with cross sections varying in steps, Bars with
continuously varying cross sections (circular and rectangular), Elongation due to self weight, Compound stress:
Introduction, plane stress system, sign convention, stresses on an inclined plane, compound stresses in beams.
Principal strains, computation of principal stresses from principal strains,
(10+6) Hours
UNIT -II
Principle of super position, Volumetric strain, Expression for volumetric strain, elastic constants, Simple shear
stress, Shear strain, Thermal stresses.
Bending of beams: Bending moment and Shear force in beams, Types of beams, loads and reactions, Shear forces
and bending moments, Rate of loading, Sign conventions, Relationship between shear force and bending
moments, Shear force and bending moment diagrams for different beams subjected to concentrated loads,
Uniform distributed load (udl) and couple for different types of beams.
(10+6) Hours
UNIT - III
Bending and shear stresses in beams, Theory of simple bending, Assumptions in simple bending, Relationship
between bending stresses and radius of curvature, Relationship between bending moment and radius of curvature,
Moment carrying capacity of a section, Shearing stresses in beams, Shear stress across rectangular, circular,
symmetrical I and T sections
Deflection of beams, Deflection of beams, Equation for deflection, Equations for deflections, Slope and
moments, Double integration method for cantilever and simply supported beams for point load, UDL, UVL and
Couple, Macaulay‟s method.,
(10+6) Hours
UNIT - IV
Thick and thin cylinders, Stresses in thin cylinders, Changes in dimensions of cylinder, Thick cylinders
subjected to internal and external pressures (Lame‟s equation).
Torsion of circular shafts and Elastic stability of columns: Pure torsion, Assumptions, Derivation of torsional
equations, Polar modulus, Torsional rigidity / stiffness of shafts, Power transmitted by solid and hollow circular
shafts. Introduction to columns, Euler‟s theory for axially loaded elastic long columns, Derivation of Euler‟s load
for various end conditions, Limitations of Euler‟s theory, Rankin‟s formula. (10+6) Hours
Reference Books:
1. W A Nash “Strength of materials”, Tata McGraw Hill, 4th edition
2. S.S. Bhavikatti, “Strength of Materials” Vikas Publications House – Pvt. Ltd., 2nd
Ed., 2006.
3. K.V. Rao, G.C. Raju, “Mechanics of materials”, First Edition,2007
4. Egor.P. Popov, “Engineering Mechanics of Solids”, Pearson Edu. India, 2nd
, Edition, 1998.
5. Mubeen, “Mechanics of Solids”, Pearson Edu. India, 2002
Basaveshwar Engineering College, Bagalkot 2012-2013
Department of Industrial and Production Engineering Syllabus 11
Title of Subject : Machine Tools Subject Code : UIP321C
Credits : 04 Contact Hours/ Week : 04(4-0-0)
Total Hours : 52 Tutorial Hours : 0
CIE Marks : 50 SEE Marks : 50
Table: Correlation Matrix of Course Outcomes with Programme Outcomes
UIP321C:Machine Tools
a b c d e f g h i j k l
No
Programme Outcomes
Course Outcomes
Ab
ilit
y t
o a
pp
ly k
no
wle
dg
e o
f m
ath
emat
ics,
scie
nce
, an
d e
ngin
eeri
ng
Ab
ilit
y t
o d
esig
n a
nd
con
du
ct e
xper
imen
ts,
as
wel
l as
to
an
aly
ze a
nd
in
terp
ret
d
ata
Ab
ilit
y t
o d
esig
n a
sy
stem
, co
mpo
nen
t, o
r p
roce
ss
to m
eet
des
ired
nee
ds
of
the
soci
ety
Ab
ilit
y t
o f
un
ctio
n o
n m
ult
i-d
isci
pli
nar
y t
eam
s
Ab
ilit
y t
o i
den
tify
, fo
rmu
late
, an
d s
olv
e
eng
inee
ring
pro
ble
ms
Un
der
stan
d p
rofe
ssio
nal
and
eth
ical
res
po
nsi
bil
ity
Ab
ilit
y t
o c
om
mu
nic
ate
effe
ctiv
ely
Un
der
stan
d t
he
imp
act
of
eng
inee
rin
g s
olu
tion
s in
a g
lob
al,
eco
no
mic
, en
vir
on
men
tal,
an
d s
oci
etal
con
tex
t
Dem
on
stra
te t
he
kn
ow
ledg
e o
f en
gin
eeri
ng
man
agem
ent
and
fin
ance
Rec
og
nit
ion o
f th
e n
eed f
or,
an
d a
n a
bil
ity
to
eng
age
in l
ife-
long
lea
rnin
g
Ab
ilit
y t
o u
se t
he
tech
niq
ues
, sk
ills
, an
d m
od
ern
eng
inee
ring
to
ols
nec
essa
ry f
or
eng
inee
rin
g
pra
ctic
e
Ab
ilit
y t
o d
evel
op
a s
ense
of
per
son
al,
soci
al,
and
mo
ral
resp
on
sib
ilit
y
1 Analyze various machining
processes and calculate relevant
quantities such as velocities,
forces, powers etc;
√
√
√
√
2 Identify and explain the function
of the basic components of a
machine tool √
√
3 Suggest appropriate process
parameters and tool materials for a
range of different operations and
Work piece materials
√
√
√
√ √ √
4 Understand the basic mechanics of
the chip formation process and
how these are related to surface
Finish and process parameters
√
√
√
√
5 Recognize cutting tool wear and
identify possible causes and
solutions
√ √
6 Understand the concepts of
traditional and non-traditional
machining processing.
√ √ √ √ √ √
Basaveshwar Engineering College, Bagalkot 2012-2013
Department of Industrial and Production Engineering Syllabus 12
UIP321C: MACHINE TOOLS
UNIT I
Introduction: Types of cutting tools, Cutting tool materials - HSS carbides, coated carbides, ceramics, Cutting
fluids-desired properties, types and selection, Single point and multi point cutting tools, types of chips, built-up
edge, factors affecting forces and power, Machinability.
Turning, Shaping and Planning machines: Classification, Constructional features of Turret and Capstan Lathe, tool
layout. Shaping and planning machine: Classification, Constructional features, Driving mechanisms, Shaping and
planning operations, Tool and work holding devices, Machining time. 12 Hours
UNIT- II
Drilling Machines: Classification, Constructional features, Drilling and related operations, Types of drilling tools,
Drill bit nomenclature.
Milling Machines: Classification, Constructional features, Milling cutters, Nomenclatures, Milling operations, Up
milling and down milling, Indexing: Simple and compound indexing. 13 Hours
UNIT-III
Grinding machines: Types of abrasives, Grain size, bonding process, grade and structure of grinding wheels,
grinding wheel types. Classification, constructional features. Selection of grinding wheel, Grinding process
parameters. Balancing of grinding wheel, mounting of grinding wheels.
Broaching process: Principle of broaching. Details of a broach. Types of broaching machines-constructional
details, applications. Advantages and Limitations.
Finishing and other Processes: Lapping and Honing operations – Principles, arrangement of set up and
application. Super finishing process, polishing, buffing operation and application. 12 Hours
UNIT-IV
Non-traditional machining processes: Need for non-traditional machining, Principle, equipment, operation and
applications of Electric Discharge Machining, Electro Chemical Machining. Ultrasonic Machining, Laser Beam
Machining, Abrasive Jet Machining, Water Jet Machining and Electron Beam Machining.
13 Hours
Text Books:
1. Workshop Technology, Hazara Choudhry, Vol-II, Media Promoters& Publishers Pvt. Ltd. 2004
2. Production Technology, R.K.Jain, Khanna Publications, 2003.
3. Production Technology, HMT, Tata Mc Graw Hill, 2001.
Reference Books:
1. Manufacturing Science, Amitabha Ghosh and Mallik, affiliated East West Press, 2003.
2. Fundamentals of Metal Machining and Machine Tools, G. Boothroyd, McGraw Hill, 2000.
Basaveshwar Engineering College, Bagalkot 2012-2013
Department of Industrial and Production Engineering Syllabus 13
Title of Subject : Metallography and Material Testing Laboratory Subject Code : UIP316L
Credits : 01 Contact Hours/ Week : 02(0-0-2)
Total Hours : 24 Tutorial Hours : 0
CIE Marks : 50 SEE Marks : 50
Table: Correlation Matrix of Course Outcomes with Programme Outcomes
a b c d e f g h i j k l
No
Programme Outcomes
Course Outcomes
Ab
ilit
y t
o a
pp
ly k
no
wle
dg
e o
f m
ath
emat
ics,
scie
nce
, an
d e
ngin
eeri
ng
Ab
ilit
y t
o d
esig
n a
nd
con
du
ct e
xper
imen
ts,
as
wel
l as
to
an
aly
ze a
nd
in
terp
ret
d
ata
Ab
ilit
y t
o d
esig
n a
sy
stem
, co
mpo
nen
t, o
r p
roce
ss
to m
eet
des
ired
nee
ds
of
the
soci
ety
Ab
ilit
y t
o f
un
ctio
n o
n m
ult
i-d
isci
pli
nar
y t
eam
s
Ab
ilit
y t
o i
den
tify
, fo
rmu
late
, an
d s
olv
e
eng
inee
ring
pro
ble
ms
Un
der
stan
d p
rofe
ssio
nal
and
eth
ical
res
po
nsi
bil
ity
Ab
ilit
y t
o c
om
mu
nic
ate
effe
ctiv
ely
Un
der
stan
d t
he
imp
act
of
eng
inee
rin
g s
olu
tion
s in
a g
lob
al,
eco
no
mic
, en
vir
on
men
tal,
an
d s
oci
etal
con
tex
t
Dem
on
stra
te t
he
kn
ow
ledg
e o
f en
gin
eeri
ng
man
agem
ent
and
fin
ance
Rec
og
nit
ion o
f th
e n
eed f
or,
an
d a
n a
bil
ity
to
eng
age
in l
ife-
long
lea
rnin
g
Ab
ilit
y t
o u
se t
he
tech
niq
ues
, sk
ills
, an
d m
od
ern
eng
inee
ring
to
ols
nec
essa
ry f
or
eng
inee
rin
g
pra
ctic
e
Ab
ilit
y t
o d
evel
op
a s
ense
of
per
son
al,
soci
al,
and
mo
ral
resp
on
sib
ilit
y
1 Preparation of various specimens
for microscopic studies √ √ √ √ √
√
2 Heat treatment on various metals
√ √ √ √ √
√
3 Conducting of various mechanical
properties study of various metals √ √ √ √ √
Basaveshwar Engineering College, Bagalkot 2012-2013
Department of Industrial and Production Engineering Syllabus 14
UIP316L: METALLOGRAPHY AND MATERIAL TESTING LABORATORY
PART-A
1. Preparation of specimen for Metallographic Examination of Engineering materials and study the
microstructure of Mild Steel, Plain carbon steel, Tool steel, Gray C.I., SG iron, Brass, Bronze.
2. Heat treatment- Annealing, Normalizing, Hardening and tempering of steel and to study the hardness
of heat-treated samples. (Demonstration only).
PART-B
1. Conduct of Tensile Test on M.S specimen.
2. Shear Test on M.S specimen.
3. Compression Test on - Wooden block and Concrete block.
4. Bending test on a Mild Steel specimen.
5. Conduct of Izod and Charpy tests on Mild Steel specimen.
6. Brinell, Rockwell and Vickers's Hardness tests.
7. Torsion Test.
8. Wear Test.
9. Fatigue Test- (Demonstration only).
Scheme of Examination:
One Question from Part A : 20 Marks
One Question from Part B : 20 Marks
Viva-Voice : 10 Marks
---------------------------------------------------------------------------------
TOTAL : 50 Marks
----------------------------------------------------------------------------------
Basaveshwar Engineering College, Bagalkot 2012-2013
Department of Industrial and Production Engineering Syllabus 15
Title of Subject : Foundry and Welding Practice Subject Code : UIP317L
Credits : 01 Contact Hours/ Week : 02(0-0-2)
Total Hours : 24 Tutorial Hours : 0
CIE Marks : 50 SEE Marks : 50
Table: Correlation Matrix of Course Outcomes with Programme Outcomes
a b c d e f g h i j k l
No
Programme Outcomes
Course Outcomes
Ab
ilit
y t
o a
pp
ly k
no
wle
dg
e o
f m
ath
emat
ics,
scie
nce
, an
d e
ngin
eeri
ng
Ab
ilit
y t
o d
esig
n a
nd
con
du
ct e
xper
imen
ts,
as
wel
l as
to
an
aly
ze a
nd
in
terp
ret
d
ata
Ab
ilit
y t
o d
esig
n a
sy
stem
, co
mpo
nen
t, o
r p
roce
ss
to m
eet
des
ired
nee
ds
of
the
soci
ety
Ab
ilit
y t
o f
un
ctio
n o
n m
ult
i-d
isci
pli
nar
y t
eam
s
Ab
ilit
y t
o i
den
tify
, fo
rmu
late
, an
d s
olv
e
eng
inee
ring
pro
ble
ms
Un
der
stan
d p
rofe
ssio
nal
and
eth
ical
res
po
nsi
bil
ity
Ab
ilit
y t
o c
om
mu
nic
ate
effe
ctiv
ely
Un
der
stan
d t
he
imp
act
of
eng
inee
rin
g s
olu
tion
s in
a g
lob
al,
eco
no
mic
, en
vir
on
men
tal,
an
d s
oci
etal
con
tex
t
Dem
on
stra
te t
he
kn
ow
ledg
e o
f en
gin
eeri
ng
man
agem
ent
and
fin
ance
Rec
og
nit
ion o
f th
e n
eed f
or,
an
d a
n a
bil
ity
to
eng
age
in l
ife-
long
lea
rnin
g
Ab
ilit
y t
o u
se t
he
tech
niq
ues
, sk
ills
, an
d m
od
ern
eng
inee
ring
to
ols
nec
essa
ry f
or
eng
inee
rin
g
pra
ctic
e
Ab
ilit
y t
o d
evel
op
a s
ense
of
per
son
al,
soci
al,
and
mo
ral
resp
on
sib
ilit
y
1 This course provides learning with
a comprehensive understanding of
how the manufacturing works in a
manufacturing company.
√
√
√ √ √
2 This course provide knowledge to
preparation of different types of
mold cavities and different types
welding joints by different
welding methods.
√√ √ √
√
3 Courses provide the student with a
background in manufacturing
process that in turn provide the
student with the capacity to better
understand and realization of
engineering products and system.
√
√
√
√
4 Aware of importance of
manufacturing process in an
industry and the applications
Basaveshwar Engineering College, Bagalkot 2012-2013
Department of Industrial and Production Engineering Syllabus 16
UIP317L: FOUNDRY AND WELDING PRACTICE
Part-A
1. Testing of Moulding sand and Core sand
Preparation of specimen and conduction of the following tests:
Compression, Shear and Tensile tests
Permeability test
Core hardness & Mould hardness tests
Grain fineness test
Clay content test
Part-B
2. Foundry Practice
Use of foundry tools and other equipments
Preparation of moulds (ready to pour) using two boxes and three boxes
Preparation of one casting using Aluminium or cast iron (Demonstration only)
3. Forging & Welding Practice
Preparing minimum three models involving upsetting, drawing and bending operations
Simple welding joints like LAP, BUTT, using ARC welding . Simple welding joints using GAS welding, TIG
& MIG welding ,spot welding.
Scheme of Examination:
One question from part A : 20 Marks
One question from part B : 20 Marks
Viva- Voice : 10 Marks
TOTALS : 50 Marks
Basaveshwar Engineering College, Bagalkot 2012-2013
Department of Industrial and Production Engineering Syllabus 17
Title of Subject : Machine shop practice Laboratory Subject Code : UIP322L
Credits : 1.5 Contact Hours/ Week : 03(0-0-3)
Total Hours : 36 Tutorial Hours : 0
CIE Marks : 50 SEE Marks : 50
Table: Correlation Matrix of Course Outcomes with Programme Outcomes
a b c d e f g h i j k l
No
Programme Outcomes
Course Outcomes
Ab
ilit
y t
o a
pp
ly k
no
wle
dg
e o
f m
ath
emat
ics,
scie
nce
, an
d e
ngin
eeri
ng
Ab
ilit
y t
o d
esig
n a
nd
con
du
ct e
xper
imen
ts,
as
wel
l as
to
an
aly
ze a
nd
in
terp
ret
d
ata
Ab
ilit
y t
o d
esig
n a
sy
stem
, co
mpo
nen
t, o
r p
roce
ss
to m
eet
des
ired
nee
ds
of
the
soci
ety
Ab
ilit
y t
o f
un
ctio
n o
n m
ult
i-d
isci
pli
nar
y t
eam
s
Ab
ilit
y t
o i
den
tify
, fo
rmu
late
, an
d s
olv
e
eng
inee
ring
pro
ble
ms
Un
der
stan
d p
rofe
ssio
nal
and
eth
ical
res
po
nsi
bil
ity
Ab
ilit
y t
o c
om
mu
nic
ate
effe
ctiv
ely
Un
der
stan
d t
he
imp
act
of
eng
inee
rin
g s
olu
tion
s in
a g
lob
al,
eco
no
mic
, en
vir
on
men
tal,
an
d s
oci
etal
con
tex
t
Dem
on
stra
te t
he
kn
ow
ledg
e o
f en
gin
eeri
ng
man
agem
ent
and
fin
ance
Rec
og
nit
ion o
f th
e n
eed f
or,
an
d a
n a
bil
ity
to
eng
age
in l
ife-
long
lea
rnin
g
Ab
ilit
y t
o u
se t
he
tech
niq
ues
, sk
ills
, an
d m
od
ern
eng
inee
ring
to
ols
nec
essa
ry f
or
eng
inee
rin
g
pra
ctic
e
Ab
ilit
y t
o d
evel
op
a s
ense
of
per
son
al,
soci
al,
and
mo
ral
resp
on
sib
ilit
y
1 Knowledge of appropriate
parameters to be used for various
machining operations.
√
√
√
√
2 Understand the relationship
between design and manufacture,
with regard to surface finish,
Process limitations.
√
√
√
√
√
3 Know the ancillary technologies
such as manufacture of cutting
tools, use of cutting fluids.
√
√
√
4 To develop a knowledge of
workshop practice and basic use
of machine tools.
√ √
√
√
UIP322 L: MACHINE SHOP PRACTICE
PART – A
Minimum four jobs consisting of following machining operations, Plain Turning, Taper Turning. Step Turning,
Thread Cutting, Facing, Knurling. Eccentric Turning using lathe. 24 Hours
PART- B
Minimum two jobs consisting of following machining operations
Cutting of gear teeth using milling machine. Cutting of V-groove , Dovetail/Rectangular groove using shaping
machine. 12 Hours
Scheme of Examination:
One model) from Part-A 30 marks
One model from Part-B 10 marks
Viva Voce 10 marks
Total 50 marks
Basaveshwar Engineering College, Bagalkot 2012-2013
Department of Industrial and Production Engineering Syllabus 18
SCHEME OF TEACHING AND EXAMINATION
B.E. (I&PE) IV SEMESTER
Sl Code Subjects Credits Hours/week Examination
Marks
Lecture Tutorial Practical CIE SEE Total
1 UMA401C Mathematics –IV 4 4 - - 50 50 100
2 UIP412C Engineering Thermodynamics 3 3 - - 50 50 100
3 UIP414C Kinematics of machines 4 3 2 - 50 50 100
4 UIP415C Computer Aided Machine Drawing 3 1 - 4 50 50 100
5 UIP 416C
Industrial Organization &
Management 3 3 - - 50 50 100
6 UIP420H Basic Business Communication 3 3 - - 50 50 100
7 UIP421C Metrology & Measurement 4 4 - - 50 50 100
8 UIP422L
Metrology & Measurements
Laboratory 1 - - 2 50 50 100
9 UMA001M* Advanced Mathematics-I - 4 - - 50 50 100
Total 25 21 2 6 450 450 900
Question Paper Pattern:
1. Total of Eight Questions with TWO from each UNIT to be set uniformly covering the entire syllabus.
2. Questions can be mixed amongst the chapters specified under each UNIT.
3. Each question should not have more than 4 sub divisions
4. Any five full questions are to be answered choosing at least one from each UNIT.
* Advanced Mathematics-I is a mandatory subject only for students having diploma and admitted to 3rd
semester
through lateral entry scheme. Passing the subject is compulsory; however marks will not be considered for
awarding grade/class. A PP/NP grade will be awarded for passing/ not passing subject.
Basaveshwar Engineering College, Bagalkot 2012-2013
Department of Industrial and Production Engineering Syllabus 19
UMA401C: ENGINEERING MATHMATICS - IV
UNIT-I
Complex Variables: Analytic functions, Cauchy-Reimann equations in Cartesian and Polar forms -
consequences, construction of analytic function (Cartesian and polar forms), Definition of Conformal
transformations: 2 2Z, and (z +a/z) (z0) ze Bilinear transformations.
Complex Integrations: Line integral, Cauchy's theorem - corollaries, Cauchy's integral formula. Taylor and
Laurent's series (statements only), Singularities, Poles, Calculation of Residues, Residue theorem (Without proof)
- problems. Contour Integration. 14 Hours
UNIT-II
Special Functions: Series solution of ordinary differential equation about ordinary point and regular singular
point, Hypergeometric, Hermite, Legendre, Bessels and Chebeschev equations. Recurrence formulae, Generating
function, orthogonal property, Rodrigue‟s formula. 14 Hours
UNIT-III
Statistics And Probability:Curve fitting by the method of least squares: x 2y=a+bx, y = ab, y = a+bx+cx. Correlation and Regression. Probability - addition rule, conditional
probability, multiplication rule, Baye‟s' rule. Discrete and continuous random variables-PDF-CDF, Binomial,
Poisson and Normal distributions 12 Hours
UNIT-IV
Sampling Distribution: Sampling, Sampling distribution, Standard error, Null and alternate hypotheses, Type I
and Type II errors, Testing of hypothesis for Means, Level of Significance for Means, Confidence limits for
Means, large and small samples, Student's t-distribution. Central limit theorem (without proof)
Joint Robability Distribution And Markov Chains: Concept of joint probability, Joint distributions - discrete
random variables, Independent random variables, Markov chains, higher transition probabilities, stationary
distribution of regular Markov chains and absorbing states. 12 Hours
Text Books:
1. Higher Engineering Mathematics (36th edition-2002) by Dr. B S Grewal, Khanna
Publishers, New Delhi.
2. Theory and Problems of Probability by Seymour Lipschutz (Schaum' Series) -
Relevant articles of Chapter 5 and Chapter 7.
Reference Books:
1. Advanced Engineering Mathematics by E Kreyszig (John Wiley & Sons)
Question Paper Pattern:
1. Total of Eight Questions with Two from each UNIT to be set uniformly covering the entire syllabus.
2. Each question should not have more than 4 sub divisions.
3. Any five full questions are to be answered choosing at least one from each UNIT.
Basaveshwar Engineering College, Bagalkot 2012-2013
Department of Industrial and Production Engineering Syllabus 20
Title of Subject : Engineering Thermodynamics Subject Code : UIP412C
Credits : 03 Contact Hours/ Week : 03(3-0-0)
Total Hours : 40 Tutorial Hours :
CIE Marks : 50 SEE Marks : 50
Table: Correlation Matrix of Course Outcomes with Programme Outcomes
a b c D e f g h i j k l
No
Programme Outcomes
Course Outcomes
Ab
ilit
y t
o a
pp
ly k
no
wle
dg
e o
f m
ath
emat
ics,
scie
nce
, an
d e
ngin
eeri
ng
Ab
ilit
y t
o d
esig
n a
nd
con
du
ct e
xper
imen
ts,
as
wel
l as
to
an
aly
ze a
nd
in
terp
ret
d
ata
Ab
ilit
y t
o d
esig
n a
sy
stem
, co
mpo
nen
t, o
r p
roce
ss
to m
eet
des
ired
nee
ds
of
the
soci
ety
Ab
ilit
y t
o f
un
ctio
n o
n m
ult
i-d
isci
pli
nar
y t
eam
s
Ab
ilit
y t
o i
den
tify
, fo
rmu
late
, an
d s
olv
e
eng
inee
ring
pro
ble
ms
Un
der
stan
d p
rofe
ssio
nal
and
eth
ical
res
po
nsi
bil
ity
Ab
ilit
y t
o c
om
mu
nic
ate
effe
ctiv
ely
Un
der
stan
d t
he
imp
act
of
eng
inee
rin
g s
olu
tion
s in
a g
lob
al,
eco
no
mic
, en
vir
on
men
tal,
an
d s
oci
etal
con
tex
t
Dem
on
stra
te t
he
kn
ow
ledg
e o
f en
gin
eeri
ng
man
agem
ent
and
fin
ance
Rec
og
nit
ion o
f th
e n
eed f
or,
an
d a
n a
bil
ity
to
eng
age
in l
ife-
long
lea
rnin
g
Ab
ilit
y t
o u
se t
he
tech
niq
ues
, sk
ills
, an
d m
od
ern
eng
inee
ring
to
ols
nec
essa
ry f
or
eng
inee
rin
g
pra
ctic
e
Ab
ilit
y t
o d
evel
op
a s
ense
of
per
son
al,
soci
al,
and
mo
ral
resp
on
sib
ilit
y
1 To know the fundamental
factors of thermodynamics √ √
√
√
√ √
2 To know the meaning of, and
how to obtain from
thermodynamic tables and
diagrams, specific volume,
enthalpy, and internal energy.
√ √ √
√
√
√
3 To know the meaning and
differences of heat and work,
and adiabatic and isotropic
processes.
√
√
√
4 To know how to apply mass
and energy balances (First
Law) to a variety of simple
processes and circumstances.
√ √
√
√
√
√
5 To know and be able to
explain the difference between
a Carnot, Otto, Diesel, Dual
and a Rankine cycle.
√ √ √ √ √
6 To calculate efficiencies of
Air Standard Cycle and
Vapour powercycles.
√ √ √ √ √
Basaveshwar Engineering College, Bagalkot 2012-2013
Department of Industrial and Production Engineering Syllabus 21
UIP412C: ENGINEERING THERMODYNAMICS
UNIT-I
Fundamentals Concepts & definitions: Thermodynamics definition & scope. Microscopic & Macroscopic
approaches. Types of Systems. Thermodynamics properties; definition & UNITs, intensive & extensive
properties. Thermodynamics state, state point, state diagram, path & process. Thermodynamic equilibrium;
definition, mechanical equilibrium. Mechanics definition of work and its limitations. Thermodynamic work;
definition, sign convention. Displacement of work. Heat; definition, UNITs & sign convention. Zeroth law of
thermodynamics. First law of T.D. – Statement of First law of T.D. First law to non-cyclic processes energy,
energy as property, modes of energy. Specific of heat at constant volume, enthalpy, Sp. heat at constant pressure.
Steady state steady flow energy equation 14 Hours
UNIT-II
Second law of T.D. – Devices converting heat to work; Direct heat engine, schematic representation and
efficiency, reversed heat engine, coefficient of performance. Kelvin-Plank statement of second law of T.D. PMM-
I, PMM-II, Clasiu's statement of second law of T.D. Reversible & irreversible process. Entropy - Clasiu's
inequality; statement, proof, application to a reversible cycle. QR/T as independent path. Entropy; definition, a
property, principal of increase of entropy, entropy as a quantitative test for irreversibility, calculation of entropy
using Tds relations. 14 Hours
UNIT-III
Gas Power Cycles – Air- Standard cycles; Carnot, Otto, Diesel, Dual and Stirling cycles, P-v and T-s diagrams,
definition, efficiencies and mean effective pressures. Comparison of Otto and Diesel cycles.
12 Hours
UNIT – IV
Vapour power cycle-Draw backs of Simple Rankine Cycle; description, T-s diagram, analysis for performance.
Comparison of Carnot & Rankine cycles. Effects of pressure & temperature on Rankine cycle performance.
Regenerative & Reheat Rankine cycle. 12 Hours
Text Books:
1. Basic and Applied Thermodynamics by P.K. Nag, Tata McGraw Hill, 3rd
Edi. 2002
2. Basic and Applied Thermodynamics by R.K. Hegde and Niranjan Murty, Sapna Book House, 2005
3. Fundamental of classical Thermodynamics by G.J. Van Wylen and R.E. Sonntag, Wiley Eastern.
Reference Book 1. Thermodynamics – An engineering Approach by Yunus, A. Cenegal and Michael A. Boles, Tata McGraw
Hill, Pub. Co., 2002.
2. Engineering Thermodynamics by Rajput, Laxmi Publications pvt ltd., Edi. 2007
Basaveshwar Engineering College, Bagalkot 2012-2013
Department of Industrial and Production Engineering Syllabus 22
Title of Subject : Kinematics of Machines Subject Code : UIP414C
Credits : 04 Contact Hours/ Week : 04(3-2-0)
Total Hours : 52 Tutorial Hours : 02
CIE Marks : 50 SEE Marks : 50
Table: Correlation Matrix of Course Outcomes with Programme Outcomes
a b c D e f g h i j k l
No
Programme Outcomes
Course Outcomes
Ab
ilit
y t
o a
pp
ly k
no
wle
dg
e o
f m
ath
emat
ics,
scie
nce
, an
d e
ngin
eeri
ng
Ab
ilit
y t
o d
esig
n a
nd
con
du
ct e
xper
imen
ts,
as
wel
l as
to
an
aly
ze a
nd
in
terp
ret
d
ata
Ab
ilit
y t
o d
esig
n a
sy
stem
, co
mpo
nen
t, o
r p
roce
ss
to m
eet
des
ired
nee
ds
of
the
soci
ety
Ab
ilit
y t
o f
un
ctio
n o
n m
ult
i-d
isci
pli
nar
y t
eam
s
Ab
ilit
y t
o i
den
tify
, fo
rmu
late
, an
d s
olv
e
eng
inee
ring
pro
ble
ms
Un
der
stan
d p
rofe
ssio
nal
and
eth
ical
res
po
nsi
bil
ity
Ab
ilit
y t
o c
om
mu
nic
ate
effe
ctiv
ely
Un
der
stan
d t
he
imp
act
of
eng
inee
rin
g s
olu
tion
s in
a g
lob
al,
eco
no
mic
, en
vir
on
men
tal,
an
d s
oci
etal
con
tex
t
Dem
on
stra
te t
he
kn
ow
ledg
e o
f en
gin
eeri
ng
man
agem
ent
and
fin
ance
Rec
og
nit
ion o
f th
e n
eed f
or,
an
d a
n a
bil
ity
to
eng
age
in l
ife-
long
lea
rnin
g
Ab
ilit
y t
o u
se t
he
tech
niq
ues
, sk
ills
, an
d m
od
ern
eng
inee
ring
to
ols
nec
essa
ry f
or
eng
inee
rin
g
pra
ctic
e
Ab
ilit
y t
o d
evel
op
a s
ense
of
per
son
al,
soci
al,
and
mo
ral
resp
on
sib
ilit
y
1 Apply the basic concepts of
machines and mechanisms and
related terminologies.
√ √ √
√
√
√ √
2 Compute and draw the
velocity and acceleration
diagrams of all basic
mechanisms.
√ √ √
√
√
√ √
3 Able to understand the theory
of gears, gear trains √ √ √
√
√
√ √
4 Analyze various types of
CAMS & follower. √ √ √
√
√
√ √
5 Apply balancing in machine
systems . Balance simple
rotating objects and pin-jointed
four bar linkages
√ √ √ √ √ √ √
Basaveshwar Engineering College, Bagalkot 2012-2013
Department of Industrial and Production Engineering Syllabus 23
UIP414 C: KINEMATICS OF MACHINES
UNIT-I
Introduction: Definitions: Link or element, kinematic pairs, degrees of freedom, Grubler‟s criterion (without
derivation), Kinematic chain, Mechanism, structure, Mobility of Mechanism, Inversion, Machine.
Kinematic Chains and Inversions: Inversions of Four bar chain; Single slider crank chain and Double slider
crank chain. 5 Hours
Mechanisms: Quick return motion mechanisms-Drag link mechanism, Whitworth mechanism and Crank and
slotted lever Mechanism. Straight line motion mechanisms Peaucellier‟s mechanism and Robert‟s mechanism.
Intermittent Motion mechanisms, Geneva mechanism and Ratchet and Pawl mechanism. Toggle mechanism,
Pantograph, Steering gear mechanism. 5 Hours
UNIT-II
Velocity and acceleration analysis of mechanisms (graphical methods): Velocity and acceleration analysis of
Four Bar mechanism, slider crank mechanism and Simple Mechanisms by vector polygons: Relative velocity and
acceleration of particles in a common link, relative velocity and accelerations of coincident Particles on separate
links- Coriolis component of acceleration. Angular velocity and angular acceleration of links, velocity of rubbing
5 Hours
Velocity analysis by instantaneous center method: Definition, Kennedy‟s Theorem, Determination of linear and
angular velocity using instantaneous center method
Klein’s construction: Analysis of velocity and acceleration of single slider crank mechanism.
5 Hours
UNIT-III
Spur gears: Gear terminology, law of gearing, Characteristics of involute action, Path of contact, Arc of contact,
Contact ratio, Interference in involute gears, Methods of avoiding interference, Back lash, Comparison of involute
and cycloidal teeth. 5 Hours
Gear trains: Simple gear trains, Compound gear trains for large speed reduction, Epicyclic gear trains, Algebraic
and tabular methods of finding velocity ratio of epicyclic gear trains. Tooth load and torque calculations in
epicyclic gear trains. 5 Hours
UNIT -IV
Cams: Types of cams, Types of followers, Displacement, Velocity and Acceleration time curves for cam profiles.
Disc cam with reciprocating follower having knife-edge, roller and flat-faced follower, Disc cam with oscillating
roller follower, Follower motions including SHM, Uniform velocity, uniform acceleration and retardation and
Cycloidal motion. 5 Hours
Balancing of machinery: Balancing of revolving masses, in single plane and different planes. Graphical method.
Balancing of reciprocating masses partial balancing of single cylinder I.C. engines (simple problems)
5 Hours
24 Hours tutorials to be conducted spread over the entire semester
Text Books:
1. "Theory of Machines”, Sadhu Singh, Pearson Education Pvt. Ltd, 2nd
edition. ISBN 9788177581270
2. "Theory of Machines”, Rattan S.S, Tata McGraw-Hill Publishing Company Ltd., New Delhi, 3 3rd
edition.
ISBN: 007014477X, 9780070144774
Reference Books:
1. “Theory of Machines and Mechanisms” John J. Uicker, Jr., Gordon R. Pennock & Joseph E. Shigley Oxford
University Press, 4th edition. ISBN-10: 0195371232 ISBN-13: 978-0195371239
2. "Theory of Machines”, R. K. Bansal, J. S. Brar Firewall Media, 3rd
edition, ISBN: 8170084180,
9788170084181
Basaveshwar Engineering College, Bagalkot 2012-2013
Department of Industrial and Production Engineering Syllabus 24
Title of Subject : Computer Aided Machine Drawing Subject Code : UIP415C
Credits : 03 Contact Hours/ Week : 03(1-0-4)
Total Hours : Tutorial Hours :
CIE Marks : 50 SEE Marks : 50
Table: Correlation Matrix of Course Outcomes with Programme Outcomes
a b c D e f g h i j k l
No
Programme Outcomes
Course Outcomes
Ab
ilit
y t
o a
pp
ly k
no
wle
dg
e o
f m
ath
em
atic
s,
scie
nce
, an
d e
ngin
eeri
ng
Ab
ilit
y t
o d
esig
n a
nd
con
du
ct e
xper
imen
ts,
as
wel
l as
to
an
aly
ze a
nd
in
terp
ret
d
ata
Ab
ilit
y t
o d
esig
n a
sy
stem
, co
mpo
nen
t, o
r p
roce
ss
to m
eet
des
ired
nee
ds
of
the
soci
ety
Ab
ilit
y t
o f
un
ctio
n o
n m
ult
i-d
isci
pli
nar
y t
eam
s
Ab
ilit
y t
o i
den
tify
, fo
rmu
late
, an
d s
olv
e
eng
inee
ring
pro
ble
ms
Un
der
stan
d p
rofe
ssio
nal
and
eth
ical
res
po
nsi
bil
ity
Ab
ilit
y t
o c
om
mu
nic
ate
effe
ctiv
ely
Un
der
stan
d t
he
imp
act
of
eng
inee
rin
g s
olu
tion
s in
a g
lob
al,
eco
no
mic
, en
vir
on
men
tal,
an
d s
oci
etal
con
tex
t
Dem
on
stra
te t
he
kn
ow
ledg
e o
f en
gin
eeri
ng
man
agem
ent
and
fin
ance
Rec
og
nit
ion o
f th
e n
eed f
or,
an
d a
n a
bil
ity
to
eng
age
in l
ife-
long
lea
rnin
g
Ab
ilit
y t
o u
se t
he
tech
niq
ues
, sk
ills
, an
d m
od
ern
eng
inee
ring
to
ols
nec
essa
ry f
or
eng
inee
rin
g
pra
ctic
e
Ab
ilit
y t
o d
evel
op
a s
ense
of
per
son
al,
soci
al,
and
mo
ral
resp
on
sib
ilit
y
1 Understand the constructional
details of machine components
using isometric, orthographic/
sectional views of drawings
and conversion of drawing
from isometric to orthographic
vice versa
√
√
√
√
2 Understand the fundamentals
of Computer aided modeling
software to create models of
mechanical components
√ √
√ √ √
3 Ability to draw, read, and
interpret drawings of complex
machine parts
√
√
√
√
√
4 Understand the issues related
with the assembly of machine
parts through three
dimensional models
√
√
5 Develop the skill to convert the
Model/Assembly to the
industrial drawings
√ √ √ √
Basaveshwar Engineering College, Bagalkot 2012-2013
Department of Industrial and Production Engineering Syllabus 25
UIP415C: COMPUTER AIDED MACHINE DRAWING
PART – A
Introduction: Review of graphic interface of the software. Review of basic sketching commands and navigational
commands. Starting a new drawing sheet. Sheet sizes. Naming a drawing. Drawing UNITs, grid and snap.
02 Hours
Sections of Solids: Sections of Pyramids, Prisms, Cubes, Tetrahedrons, Cones and Cylinders resting only on their
bases (No problems on, axis inclinations, spheres and hollow solids). True shape of sections.
Orthographic views: Conversion of pictorial views into orthographic projections of simple machine parts with or
without section. (Bureau of Indian Standards conventions are to be followed for the drawings) Hidden line
conventions. Precedence of lines. 08 Hours
Thread forms: Thread terminology, sectional views of threads. ISO Metric (Internal & External) BSW (Internal
& External) square and Acme. Sellers thread, American Standard thread.
Fasteners: Hexagonal headed bolt and nut with washer (assembly), square headed bolt and nut with washer
(assembly) simple assembly using stud bolts with nut and lock nut. Flanged nut, slotted nut, taper and split pin for
locking, counter sunk head screw, grub screw, Allen screw. 08 Hours
PART – B
Keys & Joints Parallel key, Taper key, Feather key, Gibhead key and Woodruff key
Riveted Joints: single and double riveted lap joints, butt joints with single/double cover straps (Chain and Zigzag,
using snap head rivets). cotter joint (socket and spigot), knuckle joint (pin joint) for two rods. 08 Hours
Couplings Split Muff coupling, Protected type flanged coupling, pin (bush) type flexible coupling, Oldham‟s
coupling and universal coupling (Hooks‟ Joint) 08 Hours
PART – C
Assembly Drawings
1. Plummer block (Pedestal Bearing)
2. Petrol Engine piston
3. I.C. Engine connecting rod
4. Screw jack (Bottle type)
5. Tailstock of lathe
6. Machine vice 18 Hours
Text Books:
1. N.D.Bhat & V.M.Panchal „Machine Drawing‟,
2. N. Siddeshwar, P. Kanniah, V.V.S. Sastri, „Machine Drawing‟ , published by Tata Mc GrawHill,2006
Reference Books:
1. S. Trymbaka Murthy, „A Text Book of Computer Aided Machine Drawing‟, CBS Publishers, New Delhi, 2007
2. K.R. Gopala Krishna, „Machine Drawing with Auto CAD‟ , Subhash Publication.
3. Goutam Pohit & Goutham Ghosh, „Machine Drawing with Auto CAD‟. 1st Indian print Pearson Education,
2005
4. Sham Tickoo. „Solid Edge V18, for engineers and designers'. Dream tech 2011
Note:
All the sheets should be drawn in the class using software. Sheet sizes should be A4. All sheets must be
submitted at the end of the class by taking printouts.
Two questions to be set from each Part-A, Part-B and Part-C. Student has to answer one question each from
Part-A and Part-B for 20 marks each and one question from Part-C for 60 marks.
PART-A 1x20 = 20 Marks
PART-B 1x20 = 20 Marks
PART-C 1x60 = 60 Marks
Total =100 Marks
Basaveshwar Engineering College, Bagalkot 2012-2013
Department of Industrial and Production Engineering Syllabus 26
Title of Subject : Industrial Organization and Management Subject Code : UIP416C
Credits : 03 Contact Hours/ Week : 03(3-0-0)
Total Hours : 40 Tutorial Hours :
CIE Marks : 50 SEE Marks : 50
Table: Correlation Matrix of Course Outcomes with Programme Outcomes
a b c D e f g h i j k l
No
Programme Outcomes
Course Outcomes
Ab
ilit
y t
o a
pp
ly k
no
wle
dg
e o
f m
ath
emat
ics,
scie
nce
, an
d e
ngin
eeri
ng
Ab
ilit
y t
o d
esig
n a
nd
con
du
ct e
xper
imen
ts,
as
wel
l as
to
an
aly
ze a
nd
in
terp
ret
d
ata
Ab
ilit
y t
o d
esig
n a
sy
stem
, co
mpo
nen
t, o
r p
roce
ss
to m
eet
des
ired
nee
ds
of
the
soci
ety
Ab
ilit
y t
o f
un
ctio
n o
n m
ult
i-d
isci
pli
nar
y t
eam
s
Ab
ilit
y t
o i
den
tify
, fo
rmu
late
, an
d s
olv
e
eng
inee
ring
pro
ble
ms
Un
der
stan
d p
rofe
ssio
nal
and
eth
ical
res
po
nsi
bil
ity
Ab
ilit
y t
o c
om
mu
nic
ate
effe
ctiv
ely
Un
der
stan
d t
he
imp
act
of
eng
inee
rin
g s
olu
tion
s in
a g
lob
al,
eco
no
mic
, en
vir
on
men
tal,
an
d s
oci
etal
con
tex
t
Dem
on
stra
te t
he
kn
ow
ledg
e o
f en
gin
eeri
ng
man
agem
ent
and
fin
ance
Rec
og
nit
ion o
f th
e n
eed f
or,
an
d a
n a
bil
ity
to
eng
age
in l
ife-
long
lea
rnin
g
Ab
ilit
y t
o u
se t
he
tech
niq
ues
, sk
ills
, an
d m
od
ern
eng
inee
ring
to
ols
nec
essa
ry f
or
eng
inee
rin
g
pra
ctic
e
Ab
ilit
y t
o d
evel
op
a s
ense
of
per
son
al,
soci
al,
and
mo
ral
resp
on
sib
ilit
y
1 To have an overall view of
concept of organization
management, to understand the
nature, purpose, evolution,
patterns of management, the
systems approach to the
management process, and the
functions of a
manager/management.
√
√ √
√ √
√
2 To describe the process of
decision making and problem
solving in the organization,
evaluating and choosing among
the alternative solutions,
differentiating between
programmed & non-programmed
decision making and being able to
take decisions under and risk.
√ √
√
√ √
√
3 To identify and understand the
processes of different functions of
management based on systems
approach, like Planning,
Organizing, departmentation,
Staffing, Leading and controlling.
√
√ √ √ √ √
√
4 To understand the needs and wants
of human worker, the process of
motivation, identify the
differences and advantages
various motivational theories,
techniques and job enrichment
√
√ √ √ √ √
√
5 To recognize the importance and
factors to be considered while
deciding about the structure and
ownership of companies, choosing
among the various types of
ownership of organizations
looking at the characteristics,
advantages and disadvantages of
each kind.
√ √ √
Basaveshwar Engineering College, Bagalkot 2012-2013
Department of Industrial and Production Engineering Syllabus 27
UIP416C: INDUSTRIAL ORGANIZATION AND MANAGEMENT
UNIT-I
Management Introduction: Definition of Management: its nature and purpose, the evolution of management
thought and the Patterns of management analysis, Patterns of Management analysis: A management theory
jungle? The systems approach to the management process, functions of a manager. 5 Hours
Planning and Decision-making: Managerial planning, Types of plans, Steps in planning, Objectives, setting
of objectives, Concepts in management by objectives, Nature and purpose of strategies and policies, the
strategic planning process.
Decision making: Introduction, importance and limitations of decision-making, Evaluation of alternatives,
Selecting an alternative, programmed and non-programmed decisions, decision making under certainty,
uncertainty and risk. 5 Hours
UNIT-II
Organizing: Organizing and Organization, Formal and Informal organization, organization levels and the
span of management,
Departmentation-by function, by geography, by customer, by product, Matrix organization, Strategic Business
UNITs (SBUs), Virtual organization. 6Hours
Staffing: Definition, Systems approach to Staffing, manager inventory, situational factors affecting staffing,
Selection: matching the person with the job, skills and personal characteristics required by managers,
matching qualifications with position requirements, selection process, techniques, and instruments.
4 Hours
UNIT-III
Human Factors and Motivation: Introduction, motivation, process of motivation, Theory X and Theory Y,
Maslow‟s hierarchy of needs, Alderfer‟s ERG theory, Hertzberg‟s motivation-hygiene theory, Vrooms
expectancy theory, Porter Lawler model, Equity theory, McClelland‟s needs theory, special motivational
techniques, Job enrichment 6 Hours
Leadership: Definition, Ingredients of Leadership, Trait approach to leadership, Leadership behavior and
styles, Managerial grid, Situational or contingency approach to leadership 4 Hours
UNIT-IV
Controlling: Basic control process, critical control points, standards and benchmarking, control as a feedback
system, real time information and control, preventive control, control of overall performance, requirements for
effective controls, budget as a control device, 8 Hours
Ownership of Industries: Proprietorship, Partnership, Joint Stock Companies, Public and private
undertaking, Co-operative organizations. 2 Hours
Reference Books:
1. Harold Koontz and Heinz Weihrich, "Essentials of Management- An international perspective”, Seventh
Edition, Tata McGraw Hill Companies, ISBMN: 978-0-07-062030-8.
2. Harold Koontz , Heinz Weihrich and A Ramachandra Aryasril, "Principles of Management", Tata
McGraw Hill Int. Book Co,ISBN:0-07-058192-4.
3. Heinz Weihrich and Harold Koontz , "Management: A Global Perspective", 10 Edition ,McGraw Hill Int.
Edition,ISBN:0-07-069170-3.
4. P.C.Tripathi and P.N.Reddy “ Principles of Management” 4 Edition, Tata McGraw Hill Int. Book Co,
ISBN:0-07-022088-3.
5. Stephen Robbins, “ Management”,
6. Heinz Weihrich , Mark V Cannice and Harold Koontz , "Management: A Global and Entrepreneural
Perspective", 12 Edition ,McGraw Hill Int. Edition,ISBN:0-0-07-066019-0.
Basaveshwar Engineering College, Bagalkot 2012-2013
Department of Industrial and Production Engineering Syllabus 28
Title of Subject : Basic Business Communication Subject Code : UIP420C
Credits : 03 Contact Hours/ Week : 03(3-0-0)
Total Hours : 40 Tutorial Hours :
CIE Marks : 50 SEE Marks : 50
Table: Correlation Matrix of Course Outcomes with Programme Outcomes
a b c D e f g h i j k l
No
Programme Outcomes
Course Outcomes
Ab
ilit
y t
o a
pp
ly k
no
wle
dg
e o
f m
ath
emat
ics,
scie
nce
, an
d e
ngin
eeri
ng
Ab
ilit
y t
o d
esig
n a
nd
con
du
ct e
xper
imen
ts,
as
wel
l as
to
an
aly
ze a
nd
in
terp
ret
d
ata
Ab
ilit
y t
o d
esig
n a
sy
stem
, co
mpo
nen
t, o
r p
roce
ss
to m
eet
des
ired
nee
ds
of
the
soci
ety
Ab
ilit
y t
o f
un
ctio
n o
n m
ult
i-d
isci
pli
nar
y t
eam
s
Ab
ilit
y t
o i
den
tify
, fo
rmu
late
, an
d s
olv
e
eng
inee
ring
pro
ble
ms
Un
der
stan
d p
rofe
ssio
nal
and
eth
ical
res
po
nsi
bil
ity
Ab
ilit
y t
o c
om
mu
nic
ate
effe
ctiv
ely
Un
der
stan
d t
he
imp
act
of
eng
inee
rin
g s
olu
tion
s in
a g
lob
al,
eco
no
mic
, en
vir
on
men
tal,
an
d s
oci
etal
con
tex
t
Dem
on
stra
te t
he
kn
ow
ledg
e o
f en
gin
eeri
ng
man
agem
ent
and
fin
ance
Rec
og
nit
ion o
f th
e n
eed f
or,
an
d a
n a
bil
ity
to
eng
age
in l
ife-
long
lea
rnin
g
Ab
ilit
y t
o u
se t
he
tech
niq
ues
, sk
ills
, an
d m
od
ern
eng
inee
ring
to
ols
nec
essa
ry f
or
eng
inee
rin
g
pra
ctic
e
Ab
ilit
y t
o d
evel
op
a s
ense
of
per
son
al,
soci
al,
and
mo
ral
resp
on
sib
ilit
y
1 Identify communication
theories, models and principles
that will increase
understanding of
communication and its
effective communication.
√ √
√ √
√ √
√
2 Analyze and evaluate the
communication skills needed
to communicate effectively in
a wide range of business
contexts.
√
√ √
√ √
√
3 Develop strategies to improve
interpersonal and oral
presentation skills.
√ √
√ √
√ √
√
4 Analyze the importance of
culture and ethics in the
context of business
communication.
√
√
√ √
√
Basaveshwar Engineering College, Bagalkot 2012-2013
Department of Industrial and Production Engineering Syllabus 29
UIP420H: BASIC BUSINESS COMMUNICATION
UNIT-I
Communication in the Workplace: Role of Communication in Business, Process of Human Communication.
Feedback, elements, objectives, principles of communication, barriers in communication
Communication in Organization: Formal & informal communication, verbal & non-verbal communication, oral
& written communication, horizontal and vertical communication, internal & external communication, Using
Telephone. 10 Hours
UNIT-II
Listening: Introduction, advantages and importance, how to become a good listener, barriers in effective listening.
Types of listening.
Public Speaking and Oral Reporting: Making Formal Speeches, seminar presentation.
Writing For The Effect: Business Etiquette, Conversational Style, You-view Point, Positive Language, Courtesy.
10 Hours
UNIT-III
Written forms of communication: Letters, memos, e-mails, Reports, Technical proposals, Research papers,
Instruction manuals and technical description. 10 Hours
UNIT-IV
Correctness of communication: Common Errors in Usage, Punctuation and capitalization, words commonly miss
pelt.
Strategies In The Job Search Process: Job Search, Preparing Application, Resume, Cover Letter, Facing an
Interview, Technology, Utility For Better Communication. Word Processor Applications, E-Mailing.
10 Hours
Reference Books
1. Lesikar and Fatley ,Basics Business communication Skills for Empowering the
Internet Generation 10th edition,;TatdMcGraw Hill edition,ISBN: 978-0-07-059975-8.
2. Meenakshi Raman and Sangeeta Sharma “Technical Communication Principles and
practices”, Oxford University Press, ISBN-13 978-0-19-566804-9.
3. Meenakshi Raman and Prakash Singh “Business Communication”,Oxford University
Press, ISBN-13: 978-0-19-567695-2.
4. Rajendra Pal and J S Khorahalli , Essential of Business Communication-, S Chand
and Sons Publications
5. Urmita Rai nad S,M Rai ,Business Communication-, Himalaya Publishing
House.ISBN:81-8318-438-3
6. Krishna Mohan and Meera Banerjee , Developing Communication Skills-,
McMillan India Ltd.
7. Asha Kaul , Business Communication-, Prentice Hall India Pvt Ltd.
Basaveshwar Engineering College, Bagalkot 2012-2013
Department of Industrial and Production Engineering Syllabus 30
Title of Subject : Metrology and Measurement Subject Code : UIP421C
Credits : 04 Contact Hours/ Week : 04(4-0-0)
Total Hours : 52 Tutorial Hours :
CIE Marks : 50 SEE Marks : 50
Table: Correlation Matrix of Course Outcomes with Programme Outcomes
a b c D e f g h i j k l
No
Programme Outcomes
Course Outcomes
Ab
ilit
y t
o a
pp
ly k
no
wle
dg
e o
f m
ath
emat
ics,
scie
nce
, an
d e
ngin
eeri
ng
Ab
ilit
y t
o d
esig
n a
nd
con
du
ct e
xper
imen
ts,
as
wel
l as
to
an
aly
ze a
nd
in
terp
ret
d
ata
Ab
ilit
y t
o d
esig
n a
sy
stem
, co
mpo
nen
t, o
r p
roce
ss
to m
eet
des
ired
nee
ds
of
the
soci
ety
Ab
ilit
y t
o f
un
ctio
n o
n m
ult
i-d
isci
pli
nar
y t
eam
s
Ab
ilit
y t
o i
den
tify
, fo
rmu
late
, an
d s
olv
e
eng
inee
ring
pro
ble
ms
Un
der
stan
d p
rofe
ssio
nal
and
eth
ical
res
po
nsi
bil
ity
Ab
ilit
y t
o c
om
mu
nic
ate
effe
ctiv
ely
Un
der
stan
d t
he
imp
act
of
eng
inee
rin
g s
olu
tion
s in
a g
lob
al,
eco
no
mic
, en
vir
on
men
tal,
an
d s
oci
etal
con
tex
t
Dem
on
stra
te t
he
kn
ow
ledg
e o
f en
gin
eeri
ng
man
agem
ent
and
fin
ance
Rec
og
nit
ion o
f th
e n
eed f
or,
an
d a
n a
bil
ity
to
eng
age
in l
ife-
long
lea
rnin
g
Ab
ilit
y t
o u
se t
he
tech
niq
ues
, sk
ills
, an
d m
od
ern
eng
inee
ring
to
ols
nec
essa
ry f
or
eng
inee
rin
g
pra
ctic
e
Ab
ilit
y t
o d
evel
op
a s
ense
of
per
son
al,
soci
al,
and
mo
ral
resp
on
sib
ilit
y
1 Gain knowledge about
different measurement systems
and common types of errors
√
√ √ √
2 Understand the different types
of sensors, transducers and
strain gauges used for
measurement.
√
√
√ √
3 Get the knowledge about
working of thermocouples,
thermometers and flow meters
used for measurements.
√ √
√ √
4 Anlyse the different types of
limits and fits and determine
the tolerance. √
√
√
√
Basaveshwar Engineering College, Bagalkot 2012-2013
Department of Industrial and Production Engineering Syllabus 31
UIP421C: METROLOGY AND MEASUREMENT
UNIT-I
Standards of measurements: Definition and objectives of metrology, Standard of length-International prototype
meter, Imperial standard yard, Wave length standard, line and end standard, comparison, transfer from line
standard to end standard, calibration of end bars (numerical), slip gauges, wringing phenomena, Indian Standards
(M-81,M112), numerical problems on building of slip gauges. System of limits, fits and tolerances and gauging:
Definition of tolerance, Principle of interchangeability and selective assembly, limits of size, Indian standards,
concept of limits of size and tolerances, compound tolerances, accumulation of tolerances, definition of fits, types
of fits and their designation, geometric tolerance, hole basis system, shaft basis system, classification of gauges,
brief concept of design of gauges ( Taylor‟s principle), wear allowance on gauges, types of gauges. Numerical
problems for fits and gauges. 13 Hours
UNIT-II
Comparators and angular measurement: Introduction to comparator, characteristics, classification of
comparators, mechanical comparators-Johnson comparator, Sigma comparator, Dial indicator, Optical
comparators-principles, Zeiss ultra optimeter, Electrical and Electronics comparators-principles, LVDT,
pneumatic comparators, back pressure gauges, Solex comparators, Angular measurements, Bevel protractor,
Sine bars, Sine centre, use of angle gauges(numericals on building of angles). Interferometer, Principle of
Interferometry, Autocollimator and Optical flats. Terminology of screw threads, measurements of major diameter,
minor diameter, pitch, angle and effective diameter of screw thread by 2 and 3 wire methods, best size wire.
Toolmakers microscope, gear terminology, use of gear tooth vernier caliper and gear tooth micrometer.
13 Hours
UNIT-III
Measurements and Measurement systems: Definition, significance of measurement, generalized measurement
system, definitions and concept of accuracy, precision, calibration, threshold, sensitivity, hysterisis, repeatability,
linearity, loading effect, system response-time delay. Error in measurements and classification of errors.
Transducers, Transfer efficiency, primary and secondary transducers. Electrical, Mechanical, electronic
transducers, advantages of each type transducers.
Intermediate modifying devices, Mechanical systems, inherent problems, Electrical Intermediate modifying ,
devices, input circuitry, ballast, ballast circuit, electronics amplifiers and telemetry, Terminating devices,
Mechanical system Cathode Ray Oscilloscope, Oscillographs, X-Y plotters. 13 Hours
UNIT-IV
Measurement of force: principle of analytical balance, platform balance, proving ring.
Measurement of Torque :-prony brake, hydraulic dynamometer. Pressure Measurements, Principle, use of
elastic members, Bridgeman gauge, Mcloed gauge, Pirani Gauge.
Measurement of Temperature : resistance thermometer, thermocouple, laws of thermocouples, thermocouple
materials used for construction, pyrometers Optical pyrometer.
Measurement of Strain : Strain gauges, preparation and mounting of strain gauges, gauge factor, methods of
strain measurement 13 Hours
Text Books:
1. Beckwith Marangoni and Lienhard, “Mechanical measurements” Pearson Education, 6th ed.2002.
2. R. K. Jain, “Engineering Metrology”, Khanna Publication, 1994.
Reference Books:
1. I. C. Gupta, “Engineering Metrology” Dhanpat Rai Publications, Delhi.
2. R. K. Jain. “Mechanical Measurements”
3. Alsutko, Jerry. D. Faulk, “Industrial Instrumentation” Thompson Asia Pvt.Ltd.2002.
4. Ernest O, Doblin “Measurement Systems Applications and Design” McGRAW Hill Book Co.
Basaveshwar Engineering College, Bagalkot 2012-2013
Department of Industrial and Production Engineering Syllabus 32
Title of Subject : Metrology and Measurement Laboratory Subject Code : UIP422L
Credits : 01 Contact Hours/ Week : 02(0-0-2)
Total Hours : 24 Tutorial Hours :
CIE Marks : 50 SEE Marks : 50
Table: Correlation Matrix of Course Outcomes with Programme Outcomes
a b c D e f g h i j k l
No
Programme Outcomes
Course Outcomes
Ab
ilit
y t
o a
pp
ly k
no
wle
dg
e o
f m
ath
emat
ics,
scie
nce
, an
d e
ngin
eeri
ng
Ab
ilit
y t
o d
esig
n a
nd
con
du
ct e
xper
imen
ts,
as
wel
l as
to
an
aly
ze a
nd
in
terp
ret
d
ata
Ab
ilit
y t
o d
esig
n a
sy
stem
, co
mpo
nen
t, o
r p
roce
ss
to m
eet
des
ired
nee
ds
of
the
soci
ety
Ab
ilit
y t
o f
un
ctio
n o
n m
ult
i-d
isci
pli
nar
y t
eam
s
Ab
ilit
y t
o i
den
tify
, fo
rmu
late
, an
d s
olv
e
eng
inee
ring
pro
ble
ms
Un
der
stan
d p
rofe
ssio
nal
and
eth
ical
res
po
nsi
bil
ity
Ab
ilit
y t
o c
om
mu
nic
ate
effe
ctiv
ely
Un
der
stan
d t
he
imp
act
of
eng
inee
rin
g s
olu
tion
s in
a g
lob
al,
eco
no
mic
, en
vir
on
men
tal,
an
d s
oci
etal
con
tex
t
Dem
on
stra
te t
he
kn
ow
ledg
e o
f en
gin
eeri
ng
man
agem
ent
and
fin
ance
Rec
og
nit
ion o
f th
e n
eed f
or,
an
d a
n a
bil
ity
to
eng
age
in l
ife-
long
lea
rnin
g
Ab
ilit
y t
o u
se t
he
tech
niq
ues
, sk
ills
, an
d m
od
ern
eng
inee
ring
to
ols
nec
essa
ry f
or
eng
inee
rin
g
pra
ctic
e
Ab
ilit
y t
o d
evel
op
a s
ense
of
per
son
al,
soci
al,
and
mo
ral
resp
on
sib
ilit
y
1 Complex Analysis : Students
should be able to demonstrate
knowledge and understanding
of the basic principles of
complex variable, contour
integrals, Taylor's and
Laurent's series etc.
√ √ √
√
√ √
2 Special Functions: Practical
approach of Mathematics to
solve cylindrical and spherical
problems rise in science and
engineering.
√ √ √
√
√ √
3 Statistics and Probability:
Demonstrate and
understanding of basic
principles of statistics and
probability and distributions
etc.
√ √ √
√
√ √
4 Sampling distribution and joint
probability: It helps us to make
important decisions in the field
of science and engineering.
√ √ √
√
√ √
Basaveshwar Engineering College, Bagalkot 2012-2013
Department of Industrial and Production Engineering Syllabus 33
UIP 422L: METROLOGY& MEASUREMENTS LABORATORY
Part-A
Mechanical Measurements
1. Calibration of Pressure Gauge
2. Calibration of Load Cell
3. Calibration of Thermocouple
4. Calibration of Strain Gauges
Part-B
Metrology Lab
1. Measurements Using Optical / Tool maker Microscope .
2. Measurements of angle using Sine Center/ Sine Bar/Bevel Protractor.
3. Measurements of the taper angle of given Taper Plug using roller Sets.
4. Measurements of Screw thread parameters using two wire or three- wire
method
5. Study on Snap, Plug, Ring, Taper and Adjustable Gauges.
6. Calibration of Micrometer, Vernier caliper and Vernier Height Gauge.
7. Measurement of Gear tooth profile using Gear tooth Vernier.
8. Studies on Mechanical/Electronic/Pneumatic Comparator.
Scheme of Examination:
One question from part A : 20 Marks
One question from part B : 20 Marks
Viva- Voice : 10 Marks
TOTALS : 50 Marks
Basaveshwar Engineering College, Bagalkot 2012-2013
Department of Industrial and Production Engineering Syllabus 34
UMA001M: ADVANCED MATHEMATICS-I
(Mandatory Subject)
(Common to all branches)
Differential Calculus:
Geometrical interpretation of differentiation. Determination of nth derivative of standard functions. Leibnitz‟s
theorem (without proof) and problems. Polar curves and angle between polar curves. Pedal equation of polar
curves. Taylor‟s series, Maclaurin‟s series for single variable. Partial derivatives, Euler‟s theorem. Total
differentiation. Differentiation of composite and implicit functions. Jacobian‟s and their properties.
18 Hours
Integral Calculus:
Reduction formula for functions , , tan , .n n n m nSin x Cos x x Sin x Cos x and evaluation of these integrals with
standard limits-problems. Double and Triple integrals simple problems (with standard limits). Beta and Gamma
functions, properties, relation between Beta and Gamma functions simple problems. 11 Hours
Higher Order Differential Equations:
Differential equations of second and higher orders with constant coefficients. Method of undetermined
coefficients, Variation of parameters and Cauchy‟s homogeneous linear equations. 11 Hours
Resources:
1. Elementary Mathematics B. S. Grewal. Khanna Publishers Delhi
2. Engineering Mathematics by B. S. Grewal. Khanna Publishers.
3. Higher Engineering Mathematics by B. S. Grewal. Khanna Publishers.
Question Paper Pattern for SEE:
1. Total of eight questions to be set, covering the entire syllabus.
2. Each question should not have more than 4 sub divisions.
3. Any five full questions are to be answered.