KUMARAGURU COLLEGE OF TECHNOLOGY First and Second

Transcription

KUMARAGURU COLLEGE OF TECHNOLOGY First and Second
KUMARAGURU COLLEGE OF TECHNOLOGY
(Autonomous Institution Affiliated to Anna University of Technology
COIMBATORE – 641049
CURRICULUM AND SYLLABUS
(REGULATIONS 2009)
First and Second Semester
B.E. AUTOMOBILE ENGINEERING
1
KUMARAGURU COLLEGE OF TECHNOLOGY, COIMBATORE – 641 049
(An Autonomous Institution Affiliated to Anna University of Technology Coimbatore)
CURRICULUM
Regulation-2009
B.E – AUTOMOBILE ENGINEERING
SEMESTER - I
Code No.
THEORY
ENG101
MAT101
PHY101
CHY101
MEC101
CSE101
GHE101
PRACTICAL
PHY401
MEC401
CSE401
Course Title
L
T
P
C
Technical English
Engineering Mathematics – I
Engineering Physics
Engineering Chemistry
Engineering Graphics
Programming with ‘C’
Personal Values -I
2
3
3
3
2
3
1
1
1
0
0
0
1
0
0
0
0
0
3
0
0
3
4
3
3
3
4
1
Physics Laboratory
Engineering Practices Laboratory
Programming Laboratory
0
0
0
0
0
0
3
3
3
1
1
1
TOTAL PERIODS – 32
TOTAL CREDIT – 24
SEMESTER - II
Code No.
THEORY
ENG102
MAT102
PHY103
CHY103
MEC102
MEC103
PRACTICAL
CHY401
CSE451
MEC402
GHE102
Course Title
L
T
P
C
English For Pragmatic Usage
Engineering Mathematics – II
Materials Science
Applied Chemistry
Engineering Mechanics
Manufacturing Technology-I
1
3
3
3
3
3
0
1
0
0
1
0
2
0
0
0
0
0
2
4
3
3
4
3
Chemistry Laboratory
Advanced Programming Laboratory
Manufacturing Technology – Laboratory
Personal Values -II
0
0
0
0
0
0
0
0
3
3
3
2
1
1
1
1
TOTAL PERIODS – 31
TOTAL CREDIT – 23
2
ENG101 TECHNICAL ENGLISH
(Common to all branches of Engineering and Technology)
L T P C
2 1 0 3
OBJECTIVES
• To assist learners enhance their technical jargon and to impart knowledge about the
application of technical English.
• To familiarize learners with different rhetorical functions of technical syntax
• To inculcate written proficiency in commercial and business context
• To improve the competency of professional writing with special reference to career
related situations
• To provide pragmatic exposure to technical correspondence.
UNIT – I
FOUNDATIONS OF TECHNICAL COMMUNICATION
5 hrs
Technical Jargon – Formation of engineering & technical vocabulary – Affixing –
Derivational jargon – Inflectional Morphemes – Nominal Compounds & technical
vocabulary – Acronyms and abbreviations, Concord – Agreement and Government of
scientific / technical syntax – Tense – Impersonal passive structure used in engineering &
technical texts, Modal verbs, Infinitives and Gerunds
UNIT - II
TECHNICAL SYNTAX
5hrs
Kinds of Technical Syntax – Causal expressions – Purpose and functional expressions,
Conditional syntax – Four types, Reported speech – Imperative structure – Instructions in
industrial situation, Discourse markers – Equipment / Process description, Analytical writing
– Writing a paragraph – Scientific text – Juxtaposed technical facts
UNIT – III CORRESPONDENCE IN CORPORATE SECTOR
9hrs
Creating an advertisement, Transcoding – Graphics into text – Text into Charts / Tables –
Bar charts – Pie Charts – Flow charts, Editing – Contextual occurrence of common errors –
Syntactic & Semantic Errors – Preventive Parameters – General application of articles and
preposition – Punctuation – Spelling – Tags – Interrogative structures – Proof reading
UNIT – IV TECHNICAL WRITING
5hrs
Writing abstracts, Note making, Summarizing – Diction – Objective tone, Report writing –
Techniques of writing a report – Kinds of Reports – Industrial Report – Project Proposals –
Report on the status of a project – Report on the challenges of a project.
UNIT - V
GENERAL CORRESPONDENCE
6hrs
Modules of a letter – Official & Demi-Official Letters – Applying for Educational / Car /
Home Loans – Internet connection – Joining Report – Leave letter – email correspondence –
Industrial visit – Inplant Training – Letter to the Editor, Business Letters – Calling for a
quotation – Placing Order – Letter of Complaint – Letter seeking Clarification –
Acknowledging prompt / quality service
L: 30 T: 15 Total : 45Hrs
TEXT BOOK
1. Dhanavel.S.P, English and Communication Skills for students of Science & Engineering,
Chennai: Orient Blackswan, 2009 (ISBN 13: 9788125037392)
3
REFERENCES
1. Rizvi Ashraf .M., Effective Technical Communication, Tata McGraw Hill Publishing
Co., Ltd., New Delhi, 2008.
2. Seely John., The Oxford Guide to Writing and speaking, Oxford University Press,
Chennai, 2006.
3. Devadoss K., Professional Communication for Engineers, Inder Publications,
Coimbatore, 2009.
4. Devadoss K, & Malathy P., Enhance your Employability, Inder Publications,
Coimbatore, 2009.
4
MAT101 ENGINEERING MATHEMATICS I
(Common to All Branches of Engineering & Technology)
L T P C
3 1 0 4
OBJECTIVES:
On completion of the course the students are expected
• To know eigen values and eigen vectors and diagonalization of a matrix.
• To understand the concepts of three dimensional geometry including plane, straight
line and sphere.
• To know about the geometrical aspects of curvature, evolute and envelope.
• To understand the concepts of partial differentiation, maxima and minima.
• To solve ordinary differential equations of certain types.
UNIT – I MATRICES
9hrs
Eigen values and eigenvectors of a real matrix – Properties of eigen values and
eigenvectors- Cayley - Hamilton theorem (excluding proof) – Orthogonal matrices –
Orthogonal transformation of a symmetric matrix to diagonal form – Reduction of quadratic
form to canonical form by orthogonal transformation.
UNIT – II THREE DIMENSIONAL ANALYTICAL GEOMETRY
9hrs
Equations of a plane – Equations of a straight line – Coplanar lines – Shortest distance
between skew lines – Sphere – Plane section of a sphere – Orthogonal spheres.
UNIT – III GEOMETRICAL APPLICATIONS OF DIFFERENTIAL CALCULUS
9hrs
Curvature – Cartesian co-ordinates – Centre and radius of curvature – Circle of curvature –
Evolutes – Envelopes.
UNIT – IV FUNCTIONS OF SEVERAL VARIABLES
9hrs
Total derivative – Taylor’s series expansion – Maxima and minima for functions of two
variables – Constrained maxima and minima – Lagrange’s multiplier method – Jacobians.
UNIT – V ORDINARY DIFFERENTIAL EQUATIONS
9hrs
Linear equations of second order with constant coefficients – Euler’s and Legendre’s
linear equations - Method of variation of parameters – Simultaneous first order linear
equations with constant coefficients.
L: 45, T: 15 Total: 60Hrs
TEXT BOOK
1. Veerarajan T., Engineering Mathematics (for First Year) , Revised Edition, Tata
McGraw Hill Pub. Co. Ltd., New Delhi, 2007.
REFERENCES
1. Kreyzig E., “Advanced Engineering Mathematics”, John Wiley & Sons (Asia) Pvt, Ltd.,
Singapore, 8th Edition, 2001.
2. Grewal B.S., “Higher Engineering Mathematics”, Khanna Publishers, Delhi, 36th Edition,
2001.
5
3. Venkataraman M.K., “Engineering Mathematics”, Volume - II, The National Pub. Co.,
Chennai, 2003.
4. Kandasamy P., Thilagavathy K., and Gunavathy K., “Engineering Mathematics”,
S. Chand & Co., New Delhi, (Re print) 2008.
5. Arunachalam T., “Engineering Mathematics I”, Sri Vignesh Publications, Coimbatore.
(Revised) 2009.
6
PHY101 ENGINEERING PHYSICS
(Common to all branches of Engineering and Technology)
L T P C
3 0 0 3
OBJECTIVES
At the end of the course the students would be exposed to
• To impart fundamental knowledge in various engineering subjects and applications
• Design of acoustically good buildings
• Structure identification of engineering materials
• Non destructive techniques
• Interferometric techniques in metrology, communication and civil engineering
• Application of quantum physics to optical & electrical phenomena
• Application of lasers in engineering and technology.
UNIT – I
ACOUSTICS AND ULTRASONICS
9hrs
Classification of sound characteristics of musical sound, Loudness Weber Fechner law
Decibel, Phon,-Reverberation Reverberation time, Derivation of Sabine s formula for
reverberation time (Rate of Growth and Rate of Decay) Absorption coefficient and its
determination - Factors affecting acoustics of buildings (Optimum reverberation time,
Loudness, Focussing, Echo, Echelon effect, Resonance and Noise) and their remedies.
Ultrasonic production Magnetostriction & piezoelectric methods - Detection Thermal and
Piezoelectric methods, properties, Determination of velocity of ultrasonic waves in liquid
using acoustic grating - Applications SONAR, Measurement of velocity of blood flow &
movement of heart.
UNIT – II
CRYSTALLOGRAPHY & NON-DESTRUCTIVE TESTING 9hrs
Space lattice, unit cell, Bravais space lattices, Lattice planes, Miller indices Calculation of
inter planar Distance, number of atoms per unit cell, Atomic radius, coordination number &
packing factor for simple cubic, BCC, FCC and HCP structures NDT methods: Liquid
penetrant method, Ultrasonic flaw detector, X-ray radiography & fluoroscopy.
Thermography
UNIT – III WAVE OPTICS
9hrs
Air wedge (theory and experiment) - testing of flat surfaces - Michelson interferometer,
Types of fringes, Determination of wavelength of monochromatic source and thickness of a
thin transparent sheet - Theory of plane, circularly and elliptically polarized light - quarter
and half wave plates, production and analysis of plane, circularly and elliptically polarized
light - Photo elasticity Birefringence - effect of a stressed model in a plane polariscope
Isoclinic and isochromatic fringes Photo elastic bench
UNIT – IV QUANTUM PHYSICS
9hrs
Planck s quantum theory of black body radiation (Derivations), Photo electric effect Compton effect (derivation) and Experimental verification of Compton effect Schr dinger
wave equation Time independent and time dependent equations (derivation), Physical
significance of wave function, particle in a box (in one dimension) electrons in a metal.
UNIT – V LASER & FIBRE OPTICS
9hrs
Einstein s coefficients (A & B), Nd-YAG laser, He-Ne laser, CO2 laser, semiconductor
laser - Homo-junction and Hetero-junction (only qualitative description) - Applications
7
Material processing, CD-ROM & Holography (Qualitative) Optical fibre- Principle and
Propagation of light in optical fibres-Numerical aperture and acceptance angle-types of
optical fibres Single and Multimode, step index & graded index fibres Applications - Fibre
optics communication system, Fibre optic sensors(Displacement and temperature sensors),
Medical endoscope.
L: 45, T: 15 Total: 60Hrs
TEXT BOOK
1. Avadhanalu.M.N., & Kshirsagar.P.G,, A textbook of Engineering Physics, S.Chand
& Company Ltd, New Delhi, 2005.
2. Gaur R.K., & Gupta S.L., Engineering Physics, 8th edition, Dhanpat Rai Publications
(P) Ltd., New Delhi, 2003.
REFERENCES
1. Rajendran V., & Marikani A., Applied Physics for Engineers, 3rd Edition, Tata
McGraw Hill Publishing Company Limited, New Delhi, 2003.
2. Gopal.S., Engineering Physics, Inder Publications, Coimbatore, 2006.
3. Arumugam M., Engineering Physics, 5th Edition, Anuradha Agencies, Kumbakonam,
2003.
4. Palanisamy P.K., Physics for Engineers, Vol.1 & Vol.2, 2nd Edition, Scitech
publications, Chennai, 2003.
8
CHY101 ENGINEERING CHEMISTRY
(Common to all branches of Engineering and Technology)
L T P C
3 0 0 3
OBJECTIVES
• To develop a sound knowledge of theoretical and modern technological aspects of
applied chemistry.
• To correlate the theoretical principles with application oriented studies.
UNIT – I
ELECTROCHEMISTRY
9hrs
Single electrode potential - standard electrodes (Hydrogen & calomel electrodes) electrochemical series - Nernst equation and problems. Types of electrodes (Metal-metal ion
electrode, metal -metal insoluble salt electrode, glass electrode) - determination of pH using
glass electrode - application of emf measurements and problems - reversible and irreversible
cell - Galvanic cell - Concentration cells - Kohlrausch law of independent migration of ions
and its application - Conductometric titration - Polarization - Over voltage - Decomposition
potential.
UNIT – II
ENERGY STORING DEVICES
9hrs
Introduction - primary and secondary batteries (dry cells - alkaline batteries, lead acid storage
cell, nickel - cadmium cell, lithium battery) - fuel cell (hydrogen and oxygen fuel cell) photogalvanic cell.
Nuclear Energy Sources
Nuclear fission process - characteristics of nuclear fission - chain reactions - nuclear energy nuclear reactors (light water nuclear power plant).
UNIT – III THERMODYNAMICS
9hrs
Thermodynamics - thermodynamic processes (isothermal, isobaric, isochoric and adiabatic
processes) - internal energy mathematical form of first law – enthalpy - limitation of first law
- statement of second law of thermodynamics (Clausius and Kelvin) - definition of entropy entropy change for a reversible process - entropy change for an isothermal expansion of an
ideal gas and problems - definition of free energy and work function - Gibbs Helmholtz
equation - applications and problems – Van’t Hoff isotherm and isochore - applications and
problems.
UNIT – IV SURFACE CHEMISTRY
9hrs
Adsorption: Types of adsorption - adsorption of gases on solids - adsorption isotherm
(Freundlich, Langmuir isotherms) - adsorption of solutes from solutions - applications role of
adsorption in catalytic reactions - ion exchange adsorption - basic principles in adsorption
chromatography.
UNIT – V
SPECTROSCOPY
9hrs
Beer Lambert’s Law - colorimetric analysis - principles, instrumentation (block diagram only)
- estimation of concentration of a solution by colorimetry - flame photometry - theory,
instrumentation (block diagram only) and application – UV – Visible & IR spectroscopy principles, instrumentation (block diagram only) and simple applications.
Total: 45Hrs
TEXT BOOK
1. Jain P.C. and Monika Jain, Engineering Chemistry, Dhanpat Rai Pub. Co. (P) Ltd., New
Delhi, 14th edition, 2002.
9
2. Kuriacose J.C. and Rajaram J., Chemistry in Engineering and Technology, Vol. 1& 2 ,
Tata McGraw-Hill Publishing Co. Ltd.., New Delhi, 2005.
REFERENCES
1. Bahl B.S., Tuli G.D., and Arun Bahl, Essentials of Physical Chemistry, S.Chand & Co.
Ltd., New Delhi, 2004.
2. Somorjai G A, Introduction to Surface Chemistry and Catalysis, John Wiley and Sons.
Inc. New York, 1994.
3. Shaw D.J., Introduction to Colloid and Surface Chemistry, Butterworth-heinemann
publishers, 1992.
4. Syed Shabudeen P.S., and Shoba U.S., Applied Engineering Chemistry, Inder
publications, Coimbatore 2009.
10
L T P C
MEC101 ENGINEERING GRAPHICS
2 0 3 3
(Common to all branches of Engineering and Technology)
OBJECTIVES
• To understand the principle of orthographic projection of points, lines, surfaces and
solids.
• To understand the principle of section and development of solids.
• To understand the principle of Isometric and Perspective projections.
• To study the principle of free-hand sketching techniques.
UNIT- I
PLANE CURVES, PROJECTION OF POINTS AND LINES
15ahrs
Importance of graphics in design process, visualization, communication, documentation and
drafting tools, Construction of curves - ellipse, parabola, and hyperbola by eccentricity
method only. Orthographic projection of points.
Projections of straight lines located in first quadrant - determination of true length and true
inclinations.
UNIT -II
PROJECTIONS OF SURFACES AND SOLIDS
15hrs
Projections of plane surfaces - polygonal lamina and circular lamina, located in first quadrant
and inclined to one reference plane., Projection of simple solids - prism, pyramid, cylinder
and cone. Drawing views when the axis of the solid is inclined to one reference plane.
UNIT- III
SECTION OF SOLIDS AND DEVELOPMENT OF SURFACES 15hrs
Sectioning of simple solids - prisms, pyramids, cylinder and cone. Obtaining sectional views
and true shape when the axis of the solid is vertical and cutting plane inclined to one
reference plane.
Development of lateral surfaces of truncated prisms, pyramids, cylinders and cones.
UNIT -IV
PICTORIAL PROJECTIONS
15hrs
Isometric projection, Isometric scale, Isometric views of simple solids, truncated prisms,
pyramids, cylinders and cones.
Perspective projection of prisms and pyramids when its base resting on the ground by
vanishing point method.
UNIT -V
FREE-HAND SKETCHING
15hrs
Free hand sketching techniques sketching of orthographic views from given pictorial views of
objects, including free-hand dimensioning.
Sketching pictorial views from given orthographic views.
L: 30, P: 45 Total: 75Hrs
TEXT BOOK
1. Basant Agrawal and CM Agrawal, Engineering Drawing, McGraw-Hill, New Delhi,
First Edition, 2008
2. Venugopal K., and Prabhu Raja V., Engineering Graphics, New Age International (P)
Limited, New Delhi , 2008.
11
REFERENCES
1. Nataraajan K.V, Engineering Drawing and Graphics, Dhanalakshmi Publisher,
Chennai, 2005.
2. Warren J. Luzadder and Jon. M.Duff, Fundamentals of Engineering Drawing, Prentice
Hall of India Pvt. Ltd., New Delhi, Eleventh Edition, 2005.
3. Gopalakirishna K.R., Engineering Drawing (Vol. I & II), Subhas Publications, 2001.
12
CSE101 PROGRAMMING WITH ‘C’
(Common to all branches of Engineering & Technology)
L T P C
3 1 0 4
OBJECTIVES
• To learn the basic concepts of computing.
• To know the methodology of problem solving.
• To develop skills in programming using C language.
UNIT-I
BASICS OF COMPUTERS AND PROGRAMMING LANGUAGES 9hrs
Components of a computer system – Hardware – Software - Problem solving techniquesProgram control structures – Programming paradigms – Programming languages-Generations
of programming languages -Language translators - Features of programming languages.
UNIT II
C FUNDAMENTALS
9hrs
Introduction to C –Overview of compilers and interpreters – Structure of a C program –
Programming rules – Executing the program - C declarations – Introduction – C character
set – Delimiters – C key words – Identifiers – Constants – Variables – Rules for defining
variables – Data types – Declaring variables – Initializing variables – Type conversion –
Constant and volatile variables - Operators and Expressions – Introduction – Priority of
operators and their clubbing- Comma and conditional operator- Arithmetic operatorsRelational, Logical and Bitwise operators- Input and Output in C- Introduction –
Formatted and Unformatted functions- Commonly used library functions- Decision
statements – Introduction – if, if-else, nested if-else, break, continue, go to, switch ( ), nested
switch ( ), switch ( ) case and nested if statements - Loop control statements- Introductionfor loop, nested for loop,while loop, do-while loop, do- while statement with while loop
UNIT III
FUNCTIONS AND ARRAYS
9hrs
Functions – Introduction- Declaration of function and function prototypes-The return
statement- Types of functions-Call by value and Call by reference-Function returning more
values-Function as an argument- Function with operators - Function and decision statementsFunction and loop statements-Functions with arrays and pointers- Recursion- Pointer to
function- Storage class –Introduction- Automatic, External, Static and Register variablesArrays- Introduction- Array initialization – Definition of array- Characteristic of array-One
dimensional array - Predefined Streams - Two dimensional array - Three or multidimensional arrays – sscanf ( ) and sprintf ( ) functions – Operation with arrays.
UNIT IV
STRINGS AND POINTERS
9hrs
Working with strings and Standard functions - Introduction - Declaration and
initialization of string – Display of strings with different formats – String standard functions
– Pointers – Introduction – Features of pointers – Pointer declaration – Arithmetic operations
with pointers – Pointers and arrays – Pointers and two-dimensional arrays – Array of pointers
– Pointers to pointer – Pointers and strings – Void pointers –Dynamic memory allocation –
Dynamic memory allocation – Memory models – Memory allocation functions.
UNIT V
STRUCTURE, UNION AND FILES
9hrs
Structure and Union – Introduction – Features of structures – Declaration and initialization
of structures – Structure within structure – Array of structures – Pointer to structure –
Structure and functions – Typedef – Bit fields – Enumerated data type – Union – Calling
13
BIOS and DOS services – Union of structures - Files – Introduction - Streams and file types
– Steps for file operations – File I/O – Structures read and write – Other files functions –
Searching errors in reading / writing files – Low level disk I/O – Command line arguments –
Application of command line arguments – Environment variables – I/O redirection.
L: 45, T: 15 Total: 60Hrs
TEXT BOOK
1. ITL Education Solutions Limited, A N Kamthane, “Computer Programming “, Pearson
Education (India), 2009.
REFERENCES
1. Byron S Gottfried, “Programming with C”, Second Edition, Schaum’s OuTlines,
McGraw –Hill Publishing Company Limited, 2006.
2. E.Balagurusamy,”Programming in ANSI C”, Fourth Edition, TMH, 2007.
14
Tata
GHE101 PERSONAL VALUES - I
(Common to all branches of Engineering and Technology)
L T P C
1 0 0 1
UNIT – I
5hrs
Introduction – Importance’s of Human Excellence – Objectives – Personal Values –
definitions- purpose and Philosophy of Human life – Body, Mind and Soul – Physical
exercises introductions.
UNIT – II
5hrs
Introduction - Need and Practice – Analysis of thought – origins of thought and its effect –
what you think, you become – Refinement of desire – Physical exercises continuation –
Meditations – I stage (Agna Initiation)
UNIT- III
5hrs
Anger management - What is Anger – Its evil effect - Neutralizations of anger– Practice –
Worry – why to Worry – Eradications of worries – Method – Physical exercises –
continuation – Meditation – II stage (Santhi Initiation)
Total: 15Hrs
15
PHY401 PHYSICS LABORATORY
(Common to all branches of Engineering and Technology)
L T P C
0 0 3 1
1. Torsional Pendulum determination of rigidity modulus of wire and moment of inertia
of disc.
2. Non Uniform Bending - Young modulus determination
3. Viscosity- Determination of co-efficient of Viscosity of liquid by Poiseuilles flow
4. Lee s disc- Determination of thermal conductivity of a bad conductor
5. Air wedge- Determination of thickness of a thin wire
6. Determination of velocity of sound and compressibility of liquid - Ultrasonic
interferometer.
7. Determination of specific resistance of given coil of wire – Carey Foster’s Bridge.
8. Spectrometer - Determination of wavelength of Hg source using Grating
9. Determination of wavelength of Laser using Grating and Particle size determination
and acceptance angle in an optical fibre.
10. Determination of Band gap of semiconductor material.
Total: 45Hrs
16
MEC401 ENGINEERING PRACTICES LABORATORY
(Common to all branches of Engineering and Technology)
L T P C
0 0 3 1
A. CIVIL ENGINEERING
1. Carpentry
•
•
•
Study of carpentry tools
Preparation of T joint
Preparation of dovetail joint
2. Plumbing
• Study of pipeline joints
• Preparation of plumbing line sketches for water supply.
B. MECHANICAL ENGINEERING
1. Fitting
•
•
•
Study of fitting tools
Preparation of L joint
Preparation of square joint
2. Sheet Metal Working
•
•
Study of sheet metal working tools
Preparation of cone and tray
3. Welding
•
•
Study of arc welding tools and equipment
Preparation of butt joint
21hrs
Group - II (Electrical & Electronics Engineering)
C. ELECTRICAL ENGINEERING PRACTICE
•
•
•
•
•
12hrs
Basic household wiring using switches, fuse, indicator-lamp, etc.,
Preparation of wiring diagrams.
Stair case light wiring.
Tube light wiring
Study of iron-box, fan with regulator, emergency lamp and microwave oven.
17
D. ELECTRONIC ENGINEERING PRACTICE
12hrs
List of Experiments
1. Assembling simple electronic component on a small PCB and Testing.
2. Soldering simple electronic circuits and checking continuity.
3. Measurements using digital multimeter.
• DC and AC voltage measurement
• DC and AC current measurements.
• Resistance Measurement.
• Continuity measurement.
4. Testing of Electronic components
• Resistors
• Inductors and capacitors
• Diodes (resistance in forward bias and reverse bias)
• Transistors
5. Study of CRO and Function generator
• Study of Panel Controls
• Measurement of Amplitude, Frequency, phase difference
.
Total: 45Hrs
18
CSE401 PROGRAMMING LABORATORY
(Common to all branches of Engineering and Technology)
L T P C
0 0 3 1
LIST OF EXERCISES
1.
2.
3.
4.
5.
6.
7.
Practice sessions on the usage of Office package.
To find the biggest of 3 numbers.
To find whether the given number is an Armstrong number.
To find the roots of a quadratic equation.
To sum the individual digits of an integer.
To evaluate the sine series and to generate Fibonacci series.
To perform matrix operations
• Calculation of row sum and column sum
• To find the maximum and minimum number
• Addition and multiplication
8. To perform string operations.
9. To check whether a given number is prime or not using functions(use all function
prototypes)
10. To compare two strings using pointers.
11. Mark sheet processing using files.
Total : 45Hrs
19
ENG102 ENGLISH FOR PRAGMATIC USAGE
(Common to all branches of Engineering & Technology)
L T P C
1 0 2 2
OBJECTIVES
To impart the reading comprehension through interpretative and analytic reading
exercises, provide exposure to the learners on drafting letters and filling up several
applications, improve the level of competency of public speaking with special reference
to academic related situations besides, giving practical exposure to professional and
formal speaking.
READING COMPREHENSION
1. Exercises to examine the reading comprehension capacity
2. reading for global understanding
3. Reading for specific information
4. Reading for Reviewing (Books, Articles)
TARGETTED WRITING
5. Writing Applications
Opening an SB account and filling bank challans for various purposes
Applying for a Passport
Filling applications for competitive exams
Applying for Medical Leave
6. Drafting Job Application Letters
Writing Resume
7. Writing Statement of Purpose for pursuing higher studies abroad
8. Preparing Notices and Circulars
9. Booking train tickets Online
10. Thematic writing
PUBLIC SPEAKING
11. Appropriate stress and tonal variation
12. Accent neutralization and pronunciation improvement
13. Welcoming a gathering
14. Proposing a Vote of Thanks
15. Compering
16. Presenting one’s perception on the picture given
17. Giving Seminars
10hrs
15hrs
10hrs
KINESTHETICS & FORMAL SPEAKING
10hrs
18. Assessing body language during presentation
19. Involving in constructive conversation
20. Assigning formal situations to enhance the style of telephonic conversation
21. Discriminating assertive and aggressive conversation
22. Power point presentations
Total: 45Hrs
TEXT BOOK
1. Rizvi Ashraf. M, Effective Technical Communication, Tata McGraw Hill Publishing
Co., Ltd., New Delhi.
20
REFERENCES
1. Aruna Koneru , Professional Communication, Tata McGraw Hill Publishing Co.,
Ltd., New Delhi, 2008.
2. Devadoss, K & Malathy. P, Enhance your Employability, Inder Publications,
Coimbatore, 2009
21
MAT102 ENGINEERING MATHEMATICS II
(Common to CE, AE, ME, MCE, AU,EEE, ECE & EIE branches)
L T P C
3 1 0 4
OBJECTIVES
On completion of the course the students are expected
• To understand double and triple integrations and enable them to find area and
volume using multiple integrals.
• To know the basics of vector calculus comprising gradient, divergence and curl
and line, surface and volume integrals.
• To understand analytic function and conformal mappings.
• To know the basics of residues, complex integration and contour integration.
• To understand about Laplace transform and its properties and to solve certain
linear differential equations using Laplace transform technique.
UNIT – I MULTIPLE INTEGRALS
9hrs
Double integration – Cartesian and polar coordinates – Change of order of integration –
Area as a double integral – Triple integration in cartesian coordinates – Change of
variables between cartesian and polar coordinates.
UNIT –II VECTOR CALCULUS
9hrs
Gradient, divergence and curl – Directional derivative – Irrotational and solenoidal
vector fields - Green’s theorem in the plane, Gauss divergence theorem and Stoke’s
theorem (excluding proofs) – Simple applications involving cubes and rectangular
parallelopipeds.
UNIT – III ANALYTIC FUNCTION
9hrs
Functions of a complex variable – Analytic function – Necessary conditions, Cauchy
Riemann equations in Cartesian coordinates and sufficient conditions (excluding proofs)
– Properties of analytic function – Construction of analytic function by Milne Thomson
method – Conformal mapping w = z + c, cz , 1/z and bilinear transformation.
UNIT – IV COMPLEX INTEGRATION
9hrs
Cauchy’s integral theorem and Cauchy’s integral formula (excluding proofs) – Taylor’s
and Laurent’s series expansions – Singularities – Classification – Residues – Cauchy’s
residue theorem (excluding proof) – Contour integration – Unit circle and semi-circular
contours (excluding poles on real axis).
UNIT – V LAPLACE TRANSFORM
9hrs
Laplace Transform – Sufficient conditions – Transforms of elementary functions – Basic
properties –– Transforms of derivatives and integrals – Transform of periodic functions –
Inverse transforms - Convolution theorem – Application to solution of linear ordinary
differential equations of second order with constant coefficients.
L: 45, T: 15 Total: 60Hrs
TEXT BOOK
1. Veerarajan T., “Engineering Mathematics” (for First Year), Tata McGraw Hill Pub.
Co. Ltd., New Delhi, Revised Edition, 2007.
22
REFERENCES
1. Kreyzig E., “Advanced Engineering Mathematics”, John Wiley & Sons (Asia) Pvt,
Ltd., Singapore, 8th Edition, 2001.
2. Grewal B.S., “Higher Engineering Mathematics”, Khanna Publishers, Delhi, 36th
Edition, 2001.
3. Kandasamy P., Thilagavathy K., and Gunavathy K., “Engineering Mathematics”,
S. Chand & Co., New Delhi, (Re print) 2008.
4. Arunachalam, T., “Engineering Mathematics II”, Sri Vignesh Publications,
Coimbatore. (Revised) 2009.
23
PHY103 MATERIALS SCIENCE
(Common to Mechanical, Mechatronics ,Aeronautical and
Automobile Engineering)
L T P C
3 0 0 3
OBJECTIVES
At the end of the course students would be exposed to
Types of defects in engineering materials and mechanisms of strengthening
Properties of conducting, super conducting, magnetic and dielectric materials.
Properties of Semi conducting, optical and new engineering materials.
UNIT – I CONDUCTING MATERIALS
9hrs
Classical free electron theory of metals-electrical conductivity – Thermal conductivity expression – Wiedemann Franz law(derivation) – Lorentz number – drawbacks of
classical theory – Fermi distribution function – density of energy states – effect of
temperature on Fermi energy – Superconducting phenomena – properties of
superconductors – Meissner effect, Isotope effect, Type I &Type II superconductors –
High Tc superconductors - Applications – cryotron, magnetic levitation and squids.
UNIT – II SEMI CONDUCTING MATERIALS
9hrs
Origin of band gap in solids (Qualitative treatment only) - Concept of effective mass
of an electron and hole – carrier concentration in an intrinsic semi conductor (derivation)
– Fermi level – variation of Fermi level with temperature - Electrical conductivity – band
gap semiconductor – carrier concentration in n-type and p-type semi conductors
(derivation) – Variation of Fermi level with temperature and impurity concentration –
Hall effect – Determination of Hall coefficient – experimental set up – Applications.
UNIT – III MAGNETIC & DIELECTRIC MATERIALS
9hrs
Properties of dia, para, ferro, anti ferro and ferri magnetic materials - Langevin’s theory
of paramagnetism – Determination of paramagnetic susceptibility of a solid - Weiss
theory of Ferromagnetism – Domain theory of ferromagnetism - hysteresis – soft and
hard magnetic materials – Ferrites – Applications - magnetic recording and readout Storage of magnetic data, Tapes, floppy and magnetic disc drives – magnetic memories –
Core memory and Bubble memory - dielectric materials – Electronic ionic, orientation
and space charge polarization - Frequency and temperature dependence of polarization –
Die electric loss – Dielectric breakdown – different types of break down mechanism Ferro electric materials - properties and applications.
UNIT – IV NANOTECHNOLOGY AND NEW ENGINEERING MATERIALS 9hrs
Metallic glasses – preparation, properties and applications – shape memory alloys
(SMA) – characteristics, properties of NiTi alloy applications advantages and
disadvantages of SMA – Nano materials - synthesis - plasma arcing – Chemical vapour
deposition – sol-gel - Electro deposition – ball milling – properties of nanoparicles and
applications. – Carbon nano tubes – fabrication - arc method – pulsed laser deposition Chemical vapour deposition - structure, properties & applications.
UNIT – V CRYSTAL DEFECTS AND STRENGTHENING OF MATERIALS 9hrs
Crystal imperfection - point defects-line defects - planar defects - bulk-DislocationsEdge dislocation Screw dislocation Burger Vector Dislocation climb-slip, twinning –
multiplication of dislocations. Strengthening mechanisms for the improvement of
mechanical properties- cold working precipitation hardening, solute hardening and
24
diffusion hardening-Fracture-Mechanism of brittle fracture (Griffith’s theory ) and
Ductile fracture - difference between brittle and ductile fracture - fatigue failure and its
prevention - creep different stages in creep curve-Factors affecting mechanical properties
Grain size and heat treatment Mechanical test Tensile, compression, hardness, impact
creep, fatigue and stress.
Total : 45Hrs
TEXT BOOKS
1. William.D.Callister, Jr, “Material Science and Engineering”, John Wiley & Sons,
New York, 2002.
2. Avadhanalu.M.N. and Kshirsagar.P.G, “A textbook of Engineering Physics,”
S.Chand & Company Ltd, New Delhi, 2005.
3. Pillai S.O., Solid State Physics, 5th edition, New Age International Publication, New
Delhi, 2003.
REFERENCES
1. Rajendran V. and Marikani A., “Materials Science” Tata McGraw Hill Publishing
Company Limited, New Delhi, 2005
2. Gopal.S, “Materials Science” Inder Publications, Coimbatore, 2007.
3. Kenneth G. Budinski, Michel K. Budinski, Engineering Materials Properties and
Selection, 7th Edition, Pearson, Singapore (Prentice Hall), 2002
4. William F.Smith, Foundations of Materials Science and Engineering, 3rd Edition,
McGraw-Hill, New York, 2003.
5. Arumugam M, Materials Science 3rd Edition, Anuradha Agencies, Kumbakonam,
2003.
25
CHY103 APPLIED CHEMISTRY
(Common to Mechanical, Mechatronics, Aeronautical and
Automobile Engineering)
L T P C
3 0 0 3
OBJECTIVES
To impart a sound knowledge of theoretical and modern technological aspects of
fuels and combustion, specialty materials, water technology, corrosion studies, phase
equilibria and powder metallurgy as required for the mechanical and related engineering
students.
UNIT- I
FUELS
11hrs
Classification of fuels, coal varieties, analysis of coal – proximate and ultimate analysis
- coke manufacture (Otto-Hoffman by product coke oven method) - characteristics of
metallurgical coke - cracking - thermal cracking and catalytic (fixed bed & fluidized
bed), synthetic petrol – polymerization - thermal - catalytic methods (Fischer Tropsch
method, Bergius process), knocking - octane number - antiknock characteristics - diesel cetane number - gaseous fuels (production composition and uses of producer gas, water
gas and natural gas).
Combustion - gross and net calorific value - determination of calorific value by bomb
colorimeter - explosive range- spontaneous ignition temperature - flue gas analysis
(Orsat apparatus).
UNIT- II
MECHANICAL ENGINEERING MATERIALS
11hrs
Abrasives: Moh’s scale of hardness - natural abrasives (diamond, corundum, emery,
garnets and quartz) - artificial abrasives (silicon carbide, boron carbide).
Refractories: characteristics, classification (acid, basic and natural refractories),
properties (refractoriness, refractoriness under load, dimensional stability, porosity
thermal spalling) - manufacture of refractories (general methods) - preparation,
properties and uses of high alumina bricks, magnesite and zirconia bricks only.
lubricants: functions - classification with examples - properties (viscosity index, flash
and fire point, oiliness, carbon residue, aniline point, cloud and pour point) - greases
(calcium based, sodium based, lithium based only) - solid lubricants (graphite,
molybdenum sulphide). Engineering plastics - polymer blends and alloys - properties
with examples - polyamide, poly carbonates polyurethanes and thermocole.
UNIT-III
CORROSION SCIENCE
8hrs
Corrosion - principles of electrochemical corrosion difference between chemical and
electrochemical corrosion - factors influencing corrosion - types of corrosion - galvanic
corrosion, differential aeration corrosion – (soil (microbial) corrosion, pitting corrosion,
water line corrosion) - stress corrosion - corrosion control (cathodic protection sacrificial anode) - Protective Coatings – Paint, Electroplating of Copper.
UNIT- IV
WATER TECHNOLOGY
8hrs
Boiler feed water - requirements - formation of deposits in steam boilers and heat
exchangers - disadvantages (wastage of fuel, decrease in efficiency, boiler explosion) prevention of scale formation - external treatment (ion exchange method) - internal
treatment (phosphate, calgon, carbonate, colloidal) - caustic embrittlement - boiler
corrosion - priming and foaming - desalination by reverse osmosis – Treatment of
Domestic water.
26
UNIT- V
PHASE RULE
7
Phase rule - condensed phase rule -construction of phase diagram - thermal analysis simple eutectic system (Ag-Pb system only) - applications of phase rule.
POWDER METALLURGY
Preparation of metal powders (mechanical pulverization, atomization, chemical
reduction, electrolytic process, decomposition) - mixing and blending - compacting sintering - advantages and limitations of powder metallurgy.
Total: 45Hrs
TEXT BOOKS
1. Jain P.C. and Monika Jain, Engineering Chemistry, Dhanpat Rai Pub. Co. (P) Ltd.,
New Delhi, Edition 2002.
2. Dara S.S., A text book of Engineering Chemistry, S. Chand Co. (P) Ltd., New Delhi,
2003.
REFERENCES
1. Samir Sarkar, ”Fuels and Combustion”, Orient Longman, India, 1996.
2. Dr.P.S.Syed Shabudeen Chemistry II, Inder publications, Coimbatore 2009(revised
edition)
3. Derek Pletcher and Frank C Walsh, ”Industrial Electrochemistry”, Blackie Academic
and Professional, London, 1993.
27
MEC102 ENGINEERING MECHANICS
(Common To CE, AE, ME, MCE, AU,TXT, FT & BIO branches)
L T P C
3 1 0 4
OBJECTIVES
• To understand the concept of equilibrium of particles and rigid bodies.
• To understand the concept of first and second moment of area.
• To understand the concept of various types of frictions.
• To understand the principle of work energy method, Newton’s law and impact of
elastic bodies.
UNIT -I
BASICS & STATICS OF PARTICLES
12hrs
Introduction - Units and Dimensions - Laws of Mechanics Lame’s theorem,
Parallelogram and triangular Laws of forces – Coplanar Forces - Resolution and
Composition of forces – Free body diagram - Equilibrium of a particle.
UNIT- II
EQUILIBRIUM OF RIGID BODIES
12hrs
Moment of a force about point – Varignon s theorem- Moment of a couple-Resolution of
force in to force couple system-Resultant of coplanar non concurrent system - Types of
supports and their reactions- Requirements of stable equilibrium - Equilibrium of Rigid
bodies in two dimensions.
UNIT- III
PROPERTIES OF SURFACES AND SOLIDS
12hrs
First moment of area and the Centroid of sections Rectangle, circle, triangle, T section, I
section Angle section and Hollow section. Second and product moments of plane area
Rectangle, triangle, circle. T Section, I section, Angle section and Hollow section,
Parallel axis theorem and perpendicular axis theorem - Polar moment of inertia.
UNIT- IV
FRICTION
12hrs
Frictional force-Law of coloumb friction, simple contact friction, Rolling resistance and
Belt friction, Ladder friction, Wedge friction
UNIT- V
DYNAMICS OF PARTICLES
12hrs
Kinematics: Rectilinear & Curvilinear motion of particles, Displacements Velocity and
acceleration.
Kinetics: Newton’s law, Work Energy method, Impulse and Momentum, Impact of
elastic bodies.
L: 45, T: 15, Total: 60Hrs
TEXT BOOKS
1. Rajasekaran S, Sankarasubramanian, G, Fundamentals of Engineering Mechanics,
Vikas Publishing House Pvt. Ltd., Second Edition, 2002.
2. Beer, F.P. and Johnson Jr. E.R. Vector Mechanics for Engineers, Vol. 1. Statics and
Vol. 2 Dynamics, McGraw-Hill International Edition, 2004.
REFERENCES
1. Hibbeller, R.C. Engineering Mechanics, Vol, 1 Statics, Vol, 2 Dynamics, Pearson
Education Asia Pvt. Ltd., 2000
28
2. Ashok Gupta, Interactive Engineering Mechanics Statics A Virtual Tutor, Pearson
Education Asia Pvt. Ltd., New Delhi, 2002.
3. Palanichamy, M.S, and Nagan, S., Engineering Mechanics (Statics & Dynamics)
Tata McGraw Hill, 2001.
4. Irving H, Shames, Engineering Mechanics – Statics and Dynamics, IV Edition,
Pearson Education Asia Pvt. Ltd., 2003.
29
MEC103 MANUFACTURING TECHNOLOGY – I
(Common to Mechanical and Automobile Engineering)
OBJECTIVES
•
•
L T P C
3 0 0 3
To understand the concept and basic mechanics of metal cutting, sheet metal
forming and bulk deforming processes.
To understand the basic concepts and working of different metal casting and
welding processes.
UNIT- I
METAL CASTING PROCESSES
9hrs
Sand casting – Sand moulds - Type of patterns – Pattern materials – Pattern allowances –
Types of Moulding sand – Properties – Core making – Methods of Sand testing –
Moulding machines – Types of moulding machines – Working principle of Special
casting processes – Shell, investment casting – Ceramic mould – Pressure die casting –
Centrifugal casting – Sand Casting defects – Inspection methods
UNIT- II
FABRICATION PROCESS
10hrs
Fusion welding processes – Types of Gas welding – Equipments used – Flame
characteristics – Filler and Flux materials - Arc welding equipments - Electrodes –
Coating and specifications – Principles of Resistance welding – Spot/butt, seam welding
– Gas metal arc welding – Flux cored – Submerged arc welding – Tig welding –
Principle and application of special welding processes - Plasma arc welding – Thermit
welding – Electron beam welding – Friction welding – Weld defects – Brazing and
soldering process – Methods and process capabilities.
UNIT- III
BULK DEFORMATION PROCESSES
9hrs
Hot working and cold working of metals – Forging processes – Open and close die
forging – Characteristics of the process – Typical forging operations – Rolling of metals
– Flat strip rolling – Types of Rolling mills – Shape rolling operations – Tube piercing –
Defects in rolled parts – Principles of Extrusion – Types of Extrusion – Hot and Cold
extrusion – Principle of rod and wire drawing.
UNIT -IV
SHEET METAL FORMING PROCESSES
8hrs
Sheet metal characteristics - Typical shearing operations, bending and drawing
operations – Stretch forming operations –– Formability of sheet metal – Test methods –
Working principle and application of special forming processes - Hydro forming –
Rubber pad forming – Metal spinning – Explosive forming – Magnetic pulse forming –
Super plastic forming – Process characteristics.
UNIT- V
METAL CUTTING (TURNING) PROCESS
9hrs
Lathe – specifications, types – mechanisms and major Sub-assemblies – operations
performed – work holding and supporting devices – working principle of single and
multi-spindle automats.
Total : 45Hrs
TEXT BOOKS
1. Hajra Choudhury, Elements of Workshop Technology, Vol. I and II, Media
Promotors Pvt. Ltd., Mumbai, 2001.
2. Serope Kalpajian and Steven R.Schmid, Manufacturing Engineering and
Technology, Pearson Education, Inc. 2002.
30
REFERENCES
1. B.S. Magendran Parashar and R.K. Mittal, Elements of Manufacturing Processes,
Prentice Hall of India, New Delhi 2003.
2. P.N. Rao, Manufacturing Technology, Tata McGraw-Hill Publishing Limited, II
Edition, 2002.
3. P.C. Sharma, Production Technology, S. Chand and Company, New Delhi, IV
Edition, 2007.
4. Begman, Manufacturing Process – John Wilely & Sons, IX Edition, 2004.
31
CHY401 CHEMISTRY LABORATORY
(Common to all branches of Engineering and Technology)
L T P C
0 0 3 1
OBJECTIVES
Should be Conversant with the theoretical principles and experimental procedures for
quantitative estimations and hands on experience in using analytical equipments.
PREPARATION OF SOLUTIONS (STANDARD)
1. Preparation of molar and normal solutions of the following substances - oxalic acid,
sodium carbonate, sodium hydroxide, hydrochloric acid.
2. Preparation of buffer solutions: borate buffer, phosphate buffer using Henderson
equation.
WATER TESTING
3. Determination of total hardness, temporary & permanent hardness of water by EDTA
method.
4. Determination of DO content by Winkler s method.
5. Determination of alkalinity in a water sample.
6. Determination of chloride content of water sample by argentometric method.
ELECTRO CHEMICAL ANALYSIS
7. To find out the strength of given hydrochloric acid by pH meter.
8. Conductometric titration of mixture of acids.
9. Conductometric precipitation titration using BaCl2, Na2SO4.
10. Redox titration Iron Vs. dichromate.
PHOTOMETRY
11. To determine the iron content of an unknown solution (1, 10 phenanthroline /
Thiocyanate method)
12. To determine sodium and potassium in water
VISCOMETRY
13. Determination of molecular weight of a polymer.
Total : 45Hrs
REFERENCE S
1. Vogel A.I., A Text of Quantitative Inorganic Analysis, ELBS, London.
2. Shoemaker D.P., & C.W. Garland., Experiments in Physical Chemistry, McGrawHill, London.
32
CSE451 ADVANCED PROGRAMMING LABORATORY
(For all branches other than CSE & IT)
List of Programs
UNIX & C
L T P C
0 0 3 1
The following programs are to be executed in Linux environment.
C programs are expected to employ pointers wherever possible.
1. Create a file which contains the student details and perform the following operations.
a.
b.
c.
d.
Display the contents of a file on the screen.
Rename the file
Create a new directory and move the above file into it.
Copy the contents of two files into a third file.
2. Create a file which contains the employee details such as Employee No., Employee
Name, Employee Salary, Employee Designation and perform the following
operations.
e. Search for a particular employee.
f. Create a file containing details of employees with salary greater than 5000
using pipes.
3. List the files and directories created and change the access rights of the employee file
as follows.
g. Only readable
h. Only writable
4. Write a C program to find the roots of a quadratic equation of the form ax2+bx+c=0.
The roots can be calculated using the formula –b± √b2-4ac.
2a
Write a function to calculate the roots of the given equation. The function must
use three formal parameters to receive the coefficients a, b and c and two pointer
parameters to send the roots to the calling function.
5. Write a C program to find the sum of two (nxn) matrices and to print the resultant
matrix using pointers.
6. Write a C program to count
a. No .of characters.
b. No .of words.
c. No .of lines / sentences
in a given text file.
7. Write a C program that compares two text files and returns 0 if they are identical and
1 if they are not identical
33
MATLAB PROGRAMS
8. Matrices – Addition, subtraction, multiplication, Inverse and Determinant of a matrix
calculation.
9. Polynomials –Evaluating & Plotting, determining roots of a polynomial.
10. Polynomial curve fitting.
11. Numerical integration.
12. Differential equations- numerical solution.
Total : 45Hrs
34
MEC402 MANUFACTURING TECHNOLOGY LAB – I
(Common to Mechanical and Automobile Engineering)
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
L T P C
0 0 3 1
Facing, plain and step turning
Taper turning using compound rest
Taper turning using taper turning attachment
Single start V thread cutting and knurling
Boring and internal thread cutting
Mould with solid and split patterns
Mould with loose-piece pattern
Mould with Core
Testing of moulding sand – Grain fineness number, Green strength,
Permeability
Arc Welding of Lap and T- joints
Gas Welding of a joint
MIG Welding of a joint
Conversion of round rod in to square rod
Conversion of round rod in to hexagonal bolt head
Total : 45Hrs
35
GHE102 PERSONAL VALUES - II
L T P C
0 0 2 1
UNIT – I
5hrs
Understanding Self – Who am I? – self realisation - our different self – Kaya Kalpam –
Theory & practice – physical exercises – Completion – Meditation III stage (Thuria
Initiations)
UNIT – II
5hrs
Harmony between body, mind & soul – physical well being – Exercises practical
benefits - Benefits of meditations – benefits of Kaya Kalpa – Applying the practices in
Life –
UNIT – III
5hrs
Personal values – Identifications – Adaptations – Implementations – practices & Benefits
– Exercises, Meditation and Kaya Kalpa practices – perceptions.
Total : 15Hrs
36
KUMARAGURU COLLEGE OF TECHNOLOGY (Autonomous Institution Affiliated to Anna University , Chennai) COIMBATORE – 641049 CURRICULUM (REGULATIONS 2009) First to Eighth Semester B.E. AUTOMOBILE ENGINEERING Chairman
Board of Studies
KUMARAGURU COLLEGE OF TECHNOLOGY, COIMBATORE – 641 049 (An Autonomous Institution Affiliated to Anna University , Chennai) CURRICULUM Regulation‐2009 B.E – AUTOMOBILE ENGINEERING SEMESTER ‐ I Code No. Course Title
L
T THEORY ENG101 Technical English 2
1 MAT101 Engineering Mathematics – I
3
1 PHY101 Engineering Physics 3 0 CHY101 Engineering Chemistry 3 0 MEC101 Engineering Graphics 2 0 CSE101 Programming with ‘C’ 3 1 GHE101 Personal Values ‐I 1 0 PRACTICAL PHY401 Physics Laboratory 0 0 MEC401 Engineering Practices Laboratory 0 0 CSE401 Programming Laboratory 0 0 TOTAL PERIODS – 32 TOTAL CREDIT – 24 SEMESTER ‐ II Code No. Course Title L T THEORY ENG102 English For Pragmatic Usage 1 0 MAT102 Engineering Mathematics – II 3 1 PHY103 Materials Science 3 0 CHY103 Applied Chemistry 3 0 MEC102 Engineering Mechanics 3 1 MEC103 Manufacturing Technology‐I 3 0 PRACTICAL CHY401 Chemistry Laboratory 0 0 CSE451 Advanced Programming Laboratory 0 0 MEC402 Manufacturing Technology – Laboratory 0 0 GHE102 Personal Values ‐II
0
0 TOTAL PERIODS – 31 TOTAL CREDIT – 23 Chairman
Board of Studies
P C
0 0 0 0 3 0 0 3
4
3 3 3 4 1 3 3 3 1 1 1 P C 2 0 0 0 0 0 2 4 3 3 4 3 3 3 3 2 1 1 1 1
SEMESTER ‐ III Code Course Name L T THEORY MAT 104 Engineering Mathematics – III
3 1 AUE101 Mechanics of Machines
3 1 MEC 105 Engineering Thermodynamics 3 1 MEC 106 Fluid Mechanics and Machinery 3 1 MEC 107 Manufacturing Technology ‐ II 3 0 AUE 102 Automotive Materials and Metallurgy 3 0 PRACTICAL AUE 401 Machine Drawing 2 0 MEC 404 Fluid Mechanics and Machinery Laboratory 0 0 AUE 402 Manufacturing Technology – II Laboratory 0 0 GHE 103 Human Excellence – Family values 0 0 TOTAL PERIODS – 35 TOTAL CREDIT – 28 SEMESTER ‐ IV Code Course Name L T THEORY MAT 108 MEC 109 EEE251 AUE104 AUE 105 AUE106 PRACTICAL MEC 405 Numerical methods
Strength of Materials
Basics of Electrical and Electronics Engineering Applied Thermodynamics & Heat Transfer Automotive Chassis Automotive Engines a) Strength of Materials Laboratory b) Metallurgy Laboratory
AUE 403 Electrical and Electronics Engineering Laboratory
AUE 404 Computer Graphics & Solid Modeling Laboratory
GHE 104 Human Excellence – Professional values TOTAL PERIODS – 33 Chairman
Board of Studies
3 3 3 3 3 3 1 1 0 1 0 0 P C
0
0
0 0 0 0 4
4
4 4 3 3 3 3 3 2 3 1 1 1 P C
0
0
0 0 0 0 4
4
3 4 3 3 0 0 3
0 0 3
0 0 3
0 0 2 TOTAL CREDIT – 25 1
1
1
1 SEMESTER – V Code Course Name L T P C THEORY Machine Components Design 3 1 0 4
AUE107 Two and Three Wheeler Technology
3 0 0 3
AUE108 Automotive Electrical and Electronics 3 0 0 3
AUE109 Fuels and Lubricants 3 0 0 3
AUE110 3 1 0 4
AUE111 Finite Element Analysis Environmental Science and Engineering 3 0 0 3
CHY107 PRACTICAL Fuels and Lubricants Laboratory 0 0 3 1
AUE405 AUE 406 Automotive Electrical & Electronics Lab 0 0 3 1
Automotive chassis and Engine components Laboratory 0 0 3 1
AUE 407 Automotive Design and Analysis Laboratory 0 0 3 1
AUE 408 0 0 2 1
GHE 105 Human Excellence ‐ Social Values TOTAL PERIODS – 34 TOTAL CREDIT – 25 SEMESTER – VI Code Course Name L T P C
THEORY 3 1 0 4
AUE112 Vehicle Dynamics Automotive Transmission 3 0 0 3
AUE113 3 1 0 4
AUE114 Engine Design Automotive Pollution and Control
3 0 0 3
AUE115 Automotive Advanced systems 3 0 0 3
AUE116 Elective ‐ I 3 0 0 3
E1 PRACTICAL Chassis and Engine Design Laboratory
0 0 3 1
AUE 408 Engine Performance and Emission Testing Laboratory 0 0 3 1
AUE 409 Communication Skill Laboratory 0 0 3 1
ENG 401 0 0 2 1
GHE 106 Human Excellence ‐ National Values TOTAL PERIODS – 31 TOTAL CREDIT – 24 Chairman
Board of Studies
SEMESTER – VII Code Course Name L T P C
THEORY Vehicle Dynamics 3 1 0 4 AUE117 Vehicle Body Engineering 3 0 0 3 AUE118 Off Road Vehicles 3 0 0 3 AUE119 GSS103 Total Quality Management 3 0 0 3 Elective ‐ II 3 0 0 3
E2 Elective ‐ III 3 0 0 3 E3 PRACTICAL Vehicle Dynamics & Simulation Laboratory
0 0 3 1
AUE 410 0 0 3 1 AUE 411 Vehicle Maintenance & Reconditioning Laboratory 0 0 2 1 AUE 412 Mini project 0 0 2 1
GHE 107 Human Excellence – Global Values TOTAL PERIODS – 29 TOTAL CREDIT – 22 SEMESTER – VIII Code Course Name L T P C THEORY 3 0 0 3
E 4 Elective – IV 3 0 0 3
E 5 Elective – V 3 0 0 3
E 6 Elective – VI PRACTICAL 0 0 18 6 AUE 413 Project work TOTAL PERIODS – 27 TOTAL CREDIT – 15 Chairman
Board of Studies
List of Elective Subjects: Code THEORY GSS102 GSS105 GSS107 GSS108 AUE120 AUE121
AUE122
AUE123
AUE124
AUE125
AUE126
AUE127
AUE128
AUE129
AUE130
AUE131
AUE132
AUE133
AUE134
AUE135
AUE136
AUE137
AUE138
AUE139
AUE140 AUE141 Course Name L T P C
Principles of Management
Entrepreneurship Development Indian Economy Operations Research Automotive air‐conditioning Alternate fuels and energy systems Automotive safety Hydraulics and pneumatics systems
Rubber technology for automobiles Measurements and metrology Computer simulation of IC engine processes Microprocessor application in automobiles Fuel cells technology Electric and hybrid vehicles Automotive Aerodynamics
Robotics Special Types of Vehicles Modern Automobile Accessories Microprocessor Based System Design
Fundamentals of Nanoscience Design of Jigs, Fixtures and Press tools Computational Fluid Dynamics
Composite Materials and Structures Transport Management Fleet Management Automotive Component Manufacturing 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
Chairman
Board of Studies
0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
ENG101 TECHNICAL ENGLISH
(Common to all branches of Engineering and Technology)
L T P C
2 1 0 3
OBJECTIVES
• To assist learners enhance their technical jargon and to impart knowledge about the
application of technical English.
• To familiarize learners with different rhetorical functions of technical syntax
• To inculcate written proficiency in commercial and business context
• To improve the competency of professional writing with special reference to career
related situations
• To provide pragmatic exposure to technical correspondence.
UNIT – I
FOUNDATIONS OF TECHNICAL COMMUNICATION
5 hrs
Technical Jargon – Formation of engineering & technical vocabulary – Affixing –
Derivational jargon – Inflectional Morphemes – Nominal Compounds & technical
vocabulary – Acronyms and abbreviations, Concord – Agreement and Government of
scientific / technical syntax – Tense – Impersonal passive structure used in engineering &
technical texts, Modal verbs, Infinitives and Gerunds
UNIT - II
TECHNICAL SYNTAX
5hrs
Kinds of Technical Syntax – Causal expressions – Purpose and functional expressions,
Conditional syntax – Four types, Reported speech – Imperative structure – Instructions in
industrial situation, Discourse markers – Equipment / Process description, Analytical writing
– Writing a paragraph – Scientific text – Juxtaposed technical facts
UNIT – III CORRESPONDENCE IN CORPORATE SECTOR
9hrs
Creating an advertisement, Transcoding – Graphics into text – Text into Charts / Tables –
Bar charts – Pie Charts – Flow charts, Editing – Contextual occurrence of common errors –
Syntactic & Semantic Errors – Preventive Parameters – General application of articles and
preposition – Punctuation – Spelling – Tags – Interrogative structures – Proof reading
UNIT – IV TECHNICAL WRITING
5hrs
Writing abstracts, Note making, Summarizing – Diction – Objective tone, Report writing –
Techniques of writing a report – Kinds of Reports – Industrial Report – Project Proposals –
Report on the status of a project – Report on the challenges of a project.
UNIT - V
GENERAL CORRESPONDENCE
6hrs
Modules of a letter – Official & Demi-Official Letters – Applying for Educational / Car /
Home Loans – Internet connection – Joining Report – Leave letter – email correspondence –
Industrial visit – Inplant Training – Letter to the Editor, Business Letters – Calling for a
quotation – Placing Order – Letter of Complaint – Letter seeking Clarification –
Acknowledging prompt / quality service
L: 30 T: 15 Total : 45Hrs
Chairman
Board of Studies
TEXT BOOK
1. Dhanavel.S.P, English and Communication Skills for students of Science & Engineering,
Chennai: Orient Blackswan, 2009 (ISBN 13: 9788125037392)
REFERENCES
1. Rizvi Ashraf .M., Effective Technical Communication, Tata McGraw Hill Publishing
Co., Ltd., New Delhi, 2008.
2. Seely John., The Oxford Guide to Writing and speaking, Oxford University Press,
Chennai, 2006.
3. Devadoss K., Professional Communication for Engineers, Inder Publications,
Coimbatore, 2009.
4. Devadoss K, & Malathy P., Enhance your Employability, Inder Publications,
Coimbatore, 2009.
Chairman
Board of Studies
MAT101 ENGINEERING MATHEMATICS I
(Common to All Branches of Engineering & Technology)
L T P C
3 1 0 4
OBJECTIVES:
On completion of the course the students are expected
• To know eigen values and eigen vectors and diagonalization of a matrix.
• To understand the concepts of three dimensional geometry including plane, straight
line and sphere.
• To know about the geometrical aspects of curvature, evolute and envelope.
• To understand the concepts of partial differentiation, maxima and minima.
• To solve ordinary differential equations of certain types.
UNIT – I MATRICES
9hrs
Eigen values and eigenvectors of a real matrix – Properties of eigen values and
eigenvectors- Cayley - Hamilton theorem (excluding proof) – Orthogonal matrices –
Orthogonal transformation of a symmetric matrix to diagonal form – Reduction of quadratic
form to canonical form by orthogonal transformation.
UNIT – II THREE DIMENSIONAL ANALYTICAL GEOMETRY
9hrs
Equations of a plane – Equations of a straight line – Coplanar lines – Shortest distance
between skew lines – Sphere – Plane section of a sphere – Orthogonal spheres.
UNIT – III GEOMETRICAL APPLICATIONS OF DIFFERENTIAL CALCULUS
9hrs
Curvature – Cartesian co-ordinates – Centre and radius of curvature – Circle of curvature –
Evolutes – Envelopes.
UNIT – IV FUNCTIONS OF SEVERAL VARIABLES
9hrs
Total derivative – Taylor’s series expansion – Maxima and minima for functions of two
variables – Constrained maxima and minima – Lagrange’s multiplier method – Jacobians.
UNIT – V ORDINARY DIFFERENTIAL EQUATIONS
9hrs
Linear equations of second order with constant coefficients – Euler’s and Legendre’s
linear equations - Method of variation of parameters – Simultaneous first order linear
equations with constant coefficients.
L: 45, T: 15 Total: 60Hrs
Chairman
Board of Studies
TEXT BOOK
1. Veerarajan T., Engineering Mathematics (for First Year) , Revised Edition, Tata
McGraw Hill Pub. Co. Ltd., New Delhi, 2007.
REFERENCES
1. Kreyzig E., “Advanced Engineering Mathematics”, John Wiley & Sons (Asia) Pvt, Ltd.,
Singapore, 8th Edition, 2001.
2. Grewal B.S., “Higher Engineering Mathematics”, Khanna Publishers, Delhi, 36th
Edition, 2001.
3. Venkataraman M.K., “Engineering Mathematics”, Volume - II, The National Pub. Co.,
Chennai, 2003.
4. Kandasamy P., Thilagavathy K., and Gunavathy K., “Engineering Mathematics”,
S. Chand & Co., New Delhi, (Re print) 2008.
5. Arunachalam T., “Engineering Mathematics I”, Sri Vignesh Publications, Coimbatore.
(Revised) 2009.
Chairman
Board of Studies
PHY101 ENGINEERING PHYSICS
(Common to all branches of Engineering and Technology)
L T P C
3 0 0 3
OBJECTIVES
At the end of the course the students would be exposed to
• To impart fundamental knowledge in various engineering subjects and applications
• Design of acoustically good buildings
• Structure identification of engineering materials
• Non destructive techniques
• Interferometric techniques in metrology, communication and civil engineering
• Application of quantum physics to optical & electrical phenomena
• Application of lasers in engineering and technology.
UNIT – I
ACOUSTICS AND ULTRASONICS
9hrs
Classification of sound characteristics of musical sound, Loudness Weber Fechner law
Decibel, Phon,-Reverberation Reverberation time, Derivation of Sabine s formula for
reverberation time (Rate of Growth and Rate of Decay) Absorption coefficient and its
determination - Factors affecting acoustics of buildings (Optimum reverberation time,
Loudness, Focussing, Echo, Echelon effect, Resonance and Noise) and their remedies.
Ultrasonic production Magnetostriction & piezoelectric methods - Detection Thermal and
Piezoelectric methods, properties, Determination of velocity of ultrasonic waves in liquid
using acoustic grating - Applications SONAR, Measurement of velocity of blood flow &
movement of heart.
UNIT – II
CRYSTALLOGRAPHY & NON-DESTRUCTIVE TESTING 9hrs
Space lattice, unit cell, Bravais space lattices, Lattice planes, Miller indices Calculation of
inter planar Distance, number of atoms per unit cell, Atomic radius, coordination number &
packing factor for simple cubic, BCC, FCC and HCP structures NDT methods: Liquid
penetrant method, Ultrasonic flaw detector, X-ray radiography & fluoroscopy.
Thermography
UNIT – III WAVE OPTICS
9hrs
Air wedge (theory and experiment) - testing of flat surfaces - Michelson interferometer,
Types of fringes, Determination of wavelength of monochromatic source and thickness of a
thin transparent sheet - Theory of plane, circularly and elliptically polarized light - quarter
and half wave plates, production and analysis of plane, circularly and elliptically polarized
light - Photo elasticity Birefringence - effect of a stressed model in a plane polariscope
Isoclinic and isochromatic fringes Photo elastic bench
UNIT – IV QUANTUM PHYSICS
9hrs
Planck s quantum theory of black body radiation (Derivations), Photo electric effect Compton effect (derivation) and Experimental verification of Compton effect Schr dinger
wave equation Time independent and time dependent equations (derivation), Physical
significance of wave function, particle in a box (in one dimension) electrons in a metal.
Chairman
Board of Studies
UNIT – V LASER & FIBRE OPTICS
9hrs
Einstein s coefficients (A & B), Nd-YAG laser, He-Ne laser, CO2 laser, semiconductor
laser - Homo-junction and Hetero-junction (only qualitative description) - Applications
Material processing, CD-ROM & Holography (Qualitative) Optical fibre- Principle and
Propagation of light in optical fibres-Numerical aperture and acceptance angle-types of
optical fibres Single and Multimode, step index & graded index fibres Applications - Fibre
optics communication system, Fibre optic sensors(Displacement and temperature sensors),
Medical endoscope.
L: 45, T: 15 Total: 60Hrs
TEXT BOOK
1. Avadhanalu.M.N., & Kshirsagar.P.G,, A textbook of Engineering Physics, S.Chand
& Company Ltd, New Delhi, 2005.
2. Gaur R.K., & Gupta S.L., Engineering Physics, 8th edition, Dhanpat Rai Publications
(P) Ltd., New Delhi, 2003.
REFERENCES
1. Rajendran V., & Marikani A., Applied Physics for Engineers, 3rd Edition, Tata
McGraw Hill Publishing Company Limited, New Delhi, 2003.
2. Gopal.S., Engineering Physics, Inder Publications, Coimbatore, 2006.
3. Arumugam M., Engineering Physics, 5th Edition, Anuradha Agencies, Kumbakonam,
2003.
4. Palanisamy P.K., Physics for Engineers, Vol.1 & Vol.2, 2nd Edition, Scitech
publications, Chennai, 2003.
Chairman
Board of Studies
CHY101 ENGINEERING CHEMISTRY
(Common to all branches of Engineering and Technology)
L T P C
3 0 0 3
OBJECTIVES
• To develop a sound knowledge of theoretical and modern technological aspects of
applied chemistry.
• To correlate the theoretical principles with application oriented studies.
UNIT – I
ELECTROCHEMISTRY
9hrs
Single electrode potential - standard electrodes (Hydrogen & calomel electrodes) electrochemical series - Nernst equation and problems. Types of electrodes (Metal-metal ion
electrode, metal -metal insoluble salt electrode, glass electrode) - determination of pH using
glass electrode - application of emf measurements and problems - reversible and irreversible
cell - Galvanic cell - Concentration cells - Kohlrausch law of independent migration of ions
and its application - Conductometric titration - Polarization - Over voltage - Decomposition
potential.
UNIT – II
ENERGY STORING DEVICES
9hrs
Introduction - primary and secondary batteries (dry cells - alkaline batteries, lead acid storage
cell, nickel - cadmium cell, lithium battery) - fuel cell (hydrogen and oxygen fuel cell) photogalvanic cell.
Nuclear Energy Sources
Nuclear fission process - characteristics of nuclear fission - chain reactions - nuclear energy nuclear reactors (light water nuclear power plant).
UNIT – III THERMODYNAMICS
9hrs
Thermodynamics - thermodynamic processes (isothermal, isobaric, isochoric and adiabatic
processes) - internal energy mathematical form of first law – enthalpy - limitation of first law
- statement of second law of thermodynamics (Clausius and Kelvin) - definition of entropy entropy change for a reversible process - entropy change for an isothermal expansion of an
ideal gas and problems - definition of free energy and work function - Gibbs Helmholtz
equation - applications and problems – Van’t Hoff isotherm and isochore - applications and
problems.
UNIT – IV SURFACE CHEMISTRY
9hrs
Adsorption: Types of adsorption - adsorption of gases on solids - adsorption isotherm
(Freundlich, Langmuir isotherms) - adsorption of solutes from solutions - applications role of
adsorption in catalytic reactions - ion exchange adsorption - basic principles in adsorption
chromatography.
UNIT – V
SPECTROSCOPY
9hrs
Beer Lambert’s Law - colorimetric analysis - principles, instrumentation (block diagram only)
- estimation of concentration of a solution by colorimetry - flame photometry - theory,
instrumentation (block diagram only) and application – UV – Visible & IR spectroscopy principles, instrumentation (block diagram only) and simple applications.
Total: 45Hrs
Chairman
Board of Studies
TEXT BOOK
1. Jain P.C. and Monika Jain, Engineering Chemistry, Dhanpat Rai Pub. Co. (P) Ltd., New
Delhi, 14th edition, 2002.
2. Kuriacose J.C. and Rajaram J., Chemistry in Engineering and Technology, Vol. 1& 2 ,
Tata McGraw-Hill Publishing Co. Ltd.., New Delhi, 2005.
REFERENCES
1. Bahl B.S., Tuli G.D., and Arun Bahl, Essentials of Physical Chemistry, S.Chand & Co.
Ltd., New Delhi, 2004.
2. Somorjai G A, Introduction to Surface Chemistry and Catalysis, John Wiley and Sons.
Inc. New York, 1994.
3. Shaw D.J., Introduction to Colloid and Surface Chemistry, Butterworth-heinemann
publishers, 1992.
4. Syed Shabudeen P.S., and Shoba U.S., Applied Engineering Chemistry, Inder
publications, Coimbatore 2009.
Chairman
Board of Studies
L T P C
MEC101 ENGINEERING GRAPHICS
2 0 3 3
(Common to all branches of Engineering and Technology)
OBJECTIVES
• To understand the principle of orthographic projection of points, lines, surfaces and
solids.
• To understand the principle of section and development of solids.
• To understand the principle of Isometric and Perspective projections.
• To study the principle of free-hand sketching techniques.
UNIT- I
PLANE CURVES, PROJECTION OF POINTS AND LINES
15ahrs
Importance of graphics in design process, visualization, communication, documentation and
drafting tools, Construction of curves - ellipse, parabola, and hyperbola by eccentricity
method only. Orthographic projection of points.
Projections of straight lines located in first quadrant - determination of true length and true
inclinations.
UNIT -II
PROJECTIONS OF SURFACES AND SOLIDS
15hrs
Projections of plane surfaces - polygonal lamina and circular lamina, located in first quadrant
and inclined to one reference plane., Projection of simple solids - prism, pyramid, cylinder
and cone. Drawing views when the axis of the solid is inclined to one reference plane.
UNIT- III
SECTION OF SOLIDS AND DEVELOPMENT OF SURFACES 15hrs
Sectioning of simple solids - prisms, pyramids, cylinder and cone. Obtaining sectional views
and true shape when the axis of the solid is vertical and cutting plane inclined to one
reference plane.
Development of lateral surfaces of truncated prisms, pyramids, cylinders and cones.
UNIT -IV
PICTORIAL PROJECTIONS
15hrs
Isometric projection, Isometric scale, Isometric views of simple solids, truncated prisms,
pyramids, cylinders and cones.
Perspective projection of prisms and pyramids when its base resting on the ground by
vanishing point method.
UNIT -V
FREE-HAND SKETCHING
15hrs
Free hand sketching techniques sketching of orthographic views from given pictorial views of
objects, including free-hand dimensioning.
Sketching pictorial views from given orthographic views.
L: 30, P: 45 Total: 75Hrs
TEXT BOOK
1. Basant Agrawal and CM Agrawal, Engineering Drawing, McGraw-Hill, New Delhi,
First Edition, 2008
2. Venugopal K., and Prabhu Raja V., Engineering Graphics, New Age International (P)
Limited, New Delhi , 2008.
Chairman
Board of Studies
REFERENCES
1. Nataraajan K.V, Engineering Drawing and Graphics, Dhanalakshmi Publisher,
Chennai, 2005.
2. Warren J. Luzadder and Jon. M.Duff, Fundamentals of Engineering Drawing, Prentice
Hall of India Pvt. Ltd., New Delhi, Eleventh Edition, 2005.
3. Gopalakirishna K.R., Engineering Drawing (Vol. I & II), Subhas Publications, 2001.
Chairman
Board of Studies
CSE101 PROGRAMMING WITH ‘C’
(Common to all branches of Engineering & Technology)
L T P C
3 1 0 4
OBJECTIVES
• To learn the basic concepts of computing.
• To know the methodology of problem solving.
• To develop skills in programming using C language.
UNIT-I BASICS OF COMPUTERS AND PROGRAMMING LANGUAGES 9hrs
Components of a computer system – Hardware – Software - Problem solving techniquesProgram control structures – Programming paradigms – Programming languages-Generations
of programming languages -Language translators - Features of programming languages.
UNIT II C FUNDAMENTALS
9hrs
Introduction to C –Overview of compilers and interpreters – Structure of a C program –
Programming rules – Executing the program - C declarations – Introduction – C character
set – Delimiters – C key words – Identifiers – Constants – Variables – Rules for defining
variables – Data types – Declaring variables – Initializing variables – Type conversion –
Constant and volatile variables - Operators and Expressions – Introduction – Priority of
operators and their clubbing- Comma and conditional operator- Arithmetic operatorsRelational, Logical and Bitwise operators- Input and Output in C- Introduction –
Formatted and Unformatted functions- Commonly used library functions- Decision
statements – Introduction – if, if-else, nested if-else, break, continue, go to, switch ( ), nested
switch ( ), switch ( ) case and nested if statements - Loop control statements- Introductionfor loop, nested for loop,while loop, do-while loop, do- while statement with while loop
UNIT III FUNCTIONS AND ARRAYS
9hrs
Functions – Introduction- Declaration of function and function prototypes-The return
statement- Types of functions-Call by value and Call by reference-Function returning more
values-Function as an argument- Function with operators - Function and decision statementsFunction and loop statements-Functions with arrays and pointers- Recursion- Pointer to
function- Storage class –Introduction- Automatic, External, Static and Register variablesArrays- Introduction- Array initialization – Definition of array- Characteristic of array-One
dimensional array - Predefined Streams - Two dimensional array - Three or multidimensional arrays – sscanf ( ) and sprintf ( ) functions – Operation with arrays.
UNIT IV
STRINGS AND POINTERS
9hrs
Working with strings and Standard functions - Introduction - Declaration and
initialization of string – Display of strings with different formats – String standard functions
– Pointers – Introduction – Features of pointers – Pointer declaration – Arithmetic operations
with pointers – Pointers and arrays – Pointers and two-dimensional arrays – Array of pointers
– Pointers to pointer – Pointers and strings – Void pointers –Dynamic memory allocation –
Dynamic memory allocation – Memory models – Memory allocation functions.
Chairman
Board of Studies
UNIT V
STRUCTURE, UNION AND FILES
9hrs
Structure and Union – Introduction – Features of structures – Declaration and initialization
of structures – Structure within structure – Array of structures – Pointer to structure –
Structure and functions – Typedef – Bit fields – Enumerated data type – Union – Calling
BIOS and DOS services – Union of structures - Files – Introduction - Streams and file types
– Steps for file operations – File I/O – Structures read and write – Other files functions –
Searching errors in reading / writing files – Low level disk I/O – Command line arguments –
Application of command line arguments – Environment variables – I/O redirection.
L: 45, T: 15 Total: 60Hrs
TEXT BOOK
1. ITL Education Solutions Limited, A N Kamthane, “Computer Programming “, Pearson
Education (India), 2009.
REFERENCES
1. Byron S Gottfried, “Programming with C”, Second Edition, Schaum’s OuTlines,
McGraw –Hill Publishing Company Limited, 2006.
2. E.Balagurusamy,”Programming in ANSI C”, Fourth Edition, TMH, 2007.
Chairman
Board of Studies
Tata
GHE101 PERSONAL VALUES - I
(Common to all branches of Engineering and Technology)
L T P C
1 0 0 1
UNIT – I
5hrs
Introduction – Importance’s of Human Excellence – Objectives – Personal Values –
definitions- purpose and Philosophy of Human life – Body, Mind and Soul – Physical
exercises introductions.
UNIT – II
5hrs
Introduction - Need and Practice – Analysis of thought – origins of thought and its effect –
what you think, you become – Refinement of desire – Physical exercises continuation –
Meditations – I stage (Agna Initiation)
UNIT- III
5hrs
Anger management - What is Anger – Its evil effect - Neutralizations of anger– Practice –
Worry – why to Worry – Eradications of worries – Method – Physical exercises –
continuation – Meditation – II stage (Santhi Initiation)
Total: 15Hrs
Chairman
Board of Studies
PHY401 PHYSICS LABORATORY
(Common to all branches of Engineering and Technology)
L T P C
0 0 3 1
1. Torsional Pendulum determination of rigidity modulus of wire and moment of inertia
of disc.
2. Non Uniform Bending - Young modulus determination
3. Viscosity- Determination of co-efficient of Viscosity of liquid by Poiseuilles flow
4. Lee s disc- Determination of thermal conductivity of a bad conductor
5. Air wedge- Determination of thickness of a thin wire
6. Determination of velocity of sound and compressibility of liquid - Ultrasonic
interferometer.
7. Determination of specific resistance of given coil of wire – Carey Foster’s Bridge.
8. Spectrometer - Determination of wavelength of Hg source using Grating
9. Determination of wavelength of Laser using Grating and Particle size determination
and acceptance angle in an optical fibre.
10. Determination of Band gap of semiconductor material.
Total: 45Hrs
Chairman
Board of Studies
MEC401 ENGINEERING PRACTICES LABORATORY
(Common to all branches of Engineering and Technology)
L T P C
0 0 3 1
A. CIVIL ENGINEERING
1. Carpentry
•
•
•
Study of carpentry tools
Preparation of T joint
Preparation of dovetail joint
2. Plumbing
• Study of pipeline joints
• Preparation of plumbing line sketches for water supply.
B. MECHANICAL ENGINEERING
1. Fitting
•
•
•
Study of fitting tools
Preparation of L joint
Preparation of square joint
2. Sheet Metal Working
•
•
Study of sheet metal working tools
Preparation of cone and tray
3. Welding
•
•
Study of arc welding tools and equipment
Preparation of butt joint
21hrs
Group - II (Electrical & Electronics Engineering)
C. ELECTRICAL ENGINEERING PRACTICE
•
•
•
•
•
12hrs
Basic household wiring using switches, fuse, indicator-lamp, etc.,
Preparation of wiring diagrams.
Stair case light wiring.
Tube light wiring
Study of iron-box, fan with regulator, emergency lamp and microwave oven.
Chairman
Board of Studies
D. ELECTRONIC ENGINEERING PRACTICE
12hrs
List of Experiments
1. Assembling simple electronic component on a small PCB and Testing.
2. Soldering simple electronic circuits and checking continuity.
3. Measurements using digital multimeter.
• DC and AC voltage measurement
• DC and AC current measurements.
• Resistance Measurement.
• Continuity measurement.
4. Testing of Electronic components
• Resistors
• Inductors and capacitors
• Diodes (resistance in forward bias and reverse bias)
• Transistors
5. Study of CRO and Function generator
• Study of Panel Controls
• Measurement of Amplitude, Frequency, phase difference
.
Total: 45Hrs
Chairman
Board of Studies
CSE401 PROGRAMMING LABORATORY
(Common to all branches of Engineering and Technology)
L T P C
0 0 3 1
LIST OF EXERCISES
1.
2.
3.
4.
5.
6.
7.
Practice sessions on the usage of Office package.
To find the biggest of 3 numbers.
To find whether the given number is an Armstrong number.
To find the roots of a quadratic equation.
To sum the individual digits of an integer.
To evaluate the sine series and to generate Fibonacci series.
To perform matrix operations
• Calculation of row sum and column sum
• To find the maximum and minimum number
• Addition and multiplication
8. To perform string operations.
9. To check whether a given number is prime or not using functions(use all function
prototypes)
10. To compare two strings using pointers.
11. Mark sheet processing using files.
Total : 45Hrs
Chairman
Board of Studies
ENG102 ENGLISH FOR PRAGMATIC USAGE
(Common to all branches of Engineering & Technology)
L T P C
1 0 2 2
OBJECTIVES
To impart the reading comprehension through interpretative and analytic reading
exercises, provide exposure to the learners on drafting letters and filling up several
applications, improve the level of competency of public speaking with special reference
to academic related situations besides, giving practical exposure to professional and
formal speaking.
READING COMPREHENSION
1. Exercises to examine the reading comprehension capacity
2. reading for global understanding
3. Reading for specific information
4. Reading for Reviewing (Books, Articles)
TARGETTED WRITING
5. Writing Applications
Opening an SB account and filling bank challans for various purposes
Applying for a Passport
Filling applications for competitive exams
Applying for Medical Leave
6. Drafting Job Application Letters
Writing Resume
7. Writing Statement of Purpose for pursuing higher studies abroad
8. Preparing Notices and Circulars
9. Booking train tickets Online
10. Thematic writing
10hrs
PUBLIC SPEAKING
11. Appropriate stress and tonal variation
12. Accent neutralization and pronunciation improvement
13. Welcoming a gathering
14. Proposing a Vote of Thanks
15. Compering
16. Presenting one’s perception on the picture given
17. Giving Seminars
10hrs
15hrs
KINESTHETICS & FORMAL SPEAKING
10hrs
18. Assessing body language during presentation
19. Involving in constructive conversation
20. Assigning formal situations to enhance the style of telephonic conversation
21. Discriminating assertive and aggressive conversation
22. Power point presentations
Total: 45Hrs
Chairman
Board of Studies
TEXT BOOK
1. Rizvi Ashraf. M, Effective Technical Communication, Tata McGraw Hill Publishing
Co., Ltd., New Delhi.
REFERENCES
1. Aruna Koneru , Professional Communication, Tata McGraw Hill Publishing Co.,
Ltd., New Delhi, 2008.
2. Devadoss, K & Malathy. P, Enhance your Employability, Inder Publications,
Coimbatore, 2009
Chairman
Board of Studies
MAT102 ENGINEERING MATHEMATICS II
(Common to CE, AE, ME, MCE, AU,EEE, ECE & EIE branches)
L T P C
3 1 0 4
OBJECTIVES
On completion of the course the students are expected
• To understand double and triple integrations and enable them to find area and
volume using multiple integrals.
• To know the basics of vector calculus comprising gradient, divergence and curl
and line, surface and volume integrals.
• To understand analytic function and conformal mappings.
• To know the basics of residues, complex integration and contour integration.
• To understand about Laplace transform and its properties and to solve certain
linear differential equations using Laplace transform technique.
UNIT – I MULTIPLE INTEGRALS
9hrs
Double integration – Cartesian and polar coordinates – Change of order of integration –
Area as a double integral – Triple integration in cartesian coordinates – Change of
variables between cartesian and polar coordinates.
UNIT –II VECTOR CALCULUS
9hrs
Gradient, divergence and curl – Directional derivative – Irrotational and solenoidal
vector fields - Green’s theorem in the plane, Gauss divergence theorem and Stoke’s
theorem (excluding proofs) – Simple applications involving cubes and rectangular
parallelopipeds.
UNIT – III ANALYTIC FUNCTION
9hrs
Functions of a complex variable – Analytic function – Necessary conditions, Cauchy
Riemann equations in Cartesian coordinates and sufficient conditions (excluding proofs)
– Properties of analytic function – Construction of analytic function by Milne Thomson
method – Conformal mapping w = z + c, cz , 1/z and bilinear transformation.
UNIT – IV COMPLEX INTEGRATION
9hrs
Cauchy’s integral theorem and Cauchy’s integral formula (excluding proofs) – Taylor’s
and Laurent’s series expansions – Singularities – Classification – Residues – Cauchy’s
residue theorem (excluding proof) – Contour integration – Unit circle and semi-circular
contours (excluding poles on real axis).
UNIT – V LAPLACE TRANSFORM
9hrs
Laplace Transform – Sufficient conditions – Transforms of elementary functions – Basic
properties –– Transforms of derivatives and integrals – Transform of periodic functions –
Inverse transforms - Convolution theorem – Application to solution of linear ordinary
differential equations of second order with constant coefficients.
L: 45, T: 15 Total: 60Hrs
Chairman
Board of Studies
TEXT BOOK
1. Veerarajan T., “Engineering Mathematics” (for First Year), Tata McGraw Hill Pub.
Co. Ltd., New Delhi, Revised Edition, 2007.
REFERENCES
1. Kreyzig E., “Advanced Engineering Mathematics”, John Wiley & Sons (Asia) Pvt,
Ltd., Singapore, 8th Edition, 2001.
2. Grewal B.S., “Higher Engineering Mathematics”, Khanna Publishers, Delhi, 36th
Edition, 2001.
3. Kandasamy P., Thilagavathy K., and Gunavathy K., “Engineering Mathematics”,
S. Chand & Co., New Delhi, (Re print) 2008.
4. Arunachalam, T., “Engineering Mathematics II”, Sri Vignesh Publications,
Coimbatore. (Revised) 2009.
Chairman
Board of Studies
PHY103 MATERIALS SCIENCE
(Common to Mechanical, Mechatronics ,Aeronautical and
Automobile Engineering)
L T P C
3 0 0 3
OBJECTIVES
At the end of the course students would be exposed to
ƒ Types of defects in engineering materials and mechanisms of strengthening
ƒ Properties of conducting, super conducting, magnetic and dielectric materials.
ƒ Properties of Semi conducting, optical and new engineering materials.
UNIT – I CONDUCTING MATERIALS
9hrs
Classical free electron theory of metals-electrical conductivity – Thermal conductivity expression – Wiedemann Franz law(derivation) – Lorentz number – drawbacks of
classical theory – Fermi distribution function – density of energy states – effect of
temperature on Fermi energy – Superconducting phenomena – properties of
superconductors – Meissner effect, Isotope effect, Type I &Type II superconductors –
High Tc superconductors - Applications – cryotron, magnetic levitation and squids.
UNIT – II SEMI CONDUCTING MATERIALS
9hrs
Origin of band gap in solids (Qualitative treatment only) - Concept of effective mass
of an electron and hole – carrier concentration in an intrinsic semi conductor (derivation)
– Fermi level – variation of Fermi level with temperature - Electrical conductivity – band
gap semiconductor – carrier concentration in n-type and p-type semi conductors
(derivation) – Variation of Fermi level with temperature and impurity concentration –
Hall effect – Determination of Hall coefficient – experimental set up – Applications.
UNIT – III MAGNETIC & DIELECTRIC MATERIALS
9hrs
Properties of dia, para, ferro, anti ferro and ferri magnetic materials - Langevin’s theory
of paramagnetism – Determination of paramagnetic susceptibility of a solid - Weiss
theory of Ferromagnetism – Domain theory of ferromagnetism - hysteresis – soft and
hard magnetic materials – Ferrites – Applications - magnetic recording and readout Storage of magnetic data, Tapes, floppy and magnetic disc drives – magnetic memories –
Core memory and Bubble memory - dielectric materials – Electronic ionic, orientation
and space charge polarization - Frequency and temperature dependence of polarization –
Die electric loss – Dielectric breakdown – different types of break down mechanism Ferro electric materials - properties and applications.
UNIT – IV NANOTECHNOLOGY AND NEW ENGINEERING MATERIALS 9hrs
Metallic glasses – preparation, properties and applications – shape memory alloys
(SMA) – characteristics, properties of NiTi alloy applications advantages and
disadvantages of SMA – Nano materials - synthesis - plasma arcing – Chemical vapour
deposition – sol-gel - Electro deposition – ball milling – properties of nanoparicles and
applications. – Carbon nano tubes – fabrication - arc method – pulsed laser deposition Chemical vapour deposition - structure, properties & applications.
Chairman
Board of Studies
UNIT – V CRYSTAL DEFECTS AND STRENGTHENING OF MATERIALS 9hrs
Crystal imperfection - point defects-line defects - planar defects - bulk-DislocationsEdge dislocation Screw dislocation Burger Vector Dislocation climb-slip, twinning –
multiplication of dislocations. Strengthening mechanisms for the improvement of
mechanical properties- cold working precipitation hardening, solute hardening and
diffusion hardening-Fracture-Mechanism of brittle fracture (Griffith’s theory ) and
Ductile fracture - difference between brittle and ductile fracture - fatigue failure and its
prevention - creep different stages in creep curve-Factors affecting mechanical properties
Grain size and heat treatment Mechanical test Tensile, compression, hardness, impact
creep, fatigue and stress.
Total : 45Hrs
TEXT BOOKS
1. William.D.Callister, Jr, “Material Science and Engineering”, John Wiley & Sons,
New York, 2002.
2. Avadhanalu.M.N. and Kshirsagar.P.G, “A textbook of Engineering Physics,”
S.Chand & Company Ltd, New Delhi, 2005.
3. Pillai S.O., Solid State Physics, 5th edition, New Age International Publication, New
Delhi, 2003.
REFERENCES
1. Rajendran V. and Marikani A., “Materials Science” Tata McGraw Hill Publishing
Company Limited, New Delhi, 2005
2. Gopal.S, “Materials Science” Inder Publications, Coimbatore, 2007.
3. Kenneth G. Budinski, Michel K. Budinski, Engineering Materials Properties and
Selection, 7th Edition, Pearson, Singapore (Prentice Hall), 2002
4. William F.Smith, Foundations of Materials Science and Engineering, 3rd Edition,
McGraw-Hill, New York, 2003.
5. Arumugam M, Materials Science 3rd Edition, Anuradha Agencies, Kumbakonam,
2003.
Chairman
Board of Studies
CHY103 APPLIED CHEMISTRY
(Common to Mechanical, Mechatronics, Aeronautical and
Automobile Engineering)
L T P C
3 0 0 3
OBJECTIVES
To impart a sound knowledge of theoretical and modern technological aspects of
fuels and combustion, specialty materials, water technology, corrosion studies, phase
equilibria and powder metallurgy as required for the mechanical and related engineering
students.
UNIT- I
FUELS
11hrs
Classification of fuels, coal varieties, analysis of coal – proximate and ultimate analysis
- coke manufacture (Otto-Hoffman by product coke oven method) - characteristics of
metallurgical coke - cracking - thermal cracking and catalytic (fixed bed & fluidized
bed), synthetic petrol – polymerization - thermal - catalytic methods (Fischer Tropsch
method, Bergius process), knocking - octane number - antiknock characteristics - diesel cetane number - gaseous fuels (production composition and uses of producer gas, water
gas and natural gas).
Combustion - gross and net calorific value - determination of calorific value by bomb
colorimeter - explosive range- spontaneous ignition temperature - flue gas analysis
(Orsat apparatus).
UNIT- II
MECHANICAL ENGINEERING MATERIALS
11hrs
Abrasives: Moh’s scale of hardness - natural abrasives (diamond, corundum, emery,
garnets and quartz) - artificial abrasives (silicon carbide, boron carbide).
Refractories: characteristics, classification (acid, basic and natural refractories),
properties (refractoriness, refractoriness under load, dimensional stability, porosity
thermal spalling) - manufacture of refractories (general methods) - preparation,
properties and uses of high alumina bricks, magnesite and zirconia bricks only.
lubricants: functions - classification with examples - properties (viscosity index, flash
and fire point, oiliness, carbon residue, aniline point, cloud and pour point) - greases
(calcium based, sodium based, lithium based only) - solid lubricants (graphite,
molybdenum sulphide). Engineering plastics - polymer blends and alloys - properties
with examples - polyamide, poly carbonates polyurethanes and thermocole.
UNIT-III
CORROSION SCIENCE
8hrs
Corrosion - principles of electrochemical corrosion difference between chemical and
electrochemical corrosion - factors influencing corrosion - types of corrosion - galvanic
corrosion, differential aeration corrosion – (soil (microbial) corrosion, pitting corrosion,
water line corrosion) - stress corrosion - corrosion control (cathodic protection sacrificial anode) - Protective Coatings – Paint, Electroplating of Copper.
UNIT- IV
WATER TECHNOLOGY
8hrs
Boiler feed water - requirements - formation of deposits in steam boilers and heat
exchangers - disadvantages (wastage of fuel, decrease in efficiency, boiler explosion) prevention of scale formation - external treatment (ion exchange method) - internal
treatment (phosphate, calgon, carbonate, colloidal) - caustic embrittlement - boiler
corrosion - priming and foaming - desalination by reverse osmosis – Treatment of
Domestic water.
Chairman
Board of Studies
UNIT- V
PHASE RULE
7hrs
Phase rule - condensed phase rule -construction of phase diagram - thermal analysis simple eutectic system (Ag-Pb system only) - applications of phase rule.
POWDER METALLURGY
Preparation of metal powders (mechanical pulverization, atomization, chemical
reduction, electrolytic process, decomposition) - mixing and blending - compacting sintering - advantages and limitations of powder metallurgy.
Total: 45Hrs
TEXT BOOKS
1. Jain P.C. and Monika Jain, Engineering Chemistry, Dhanpat Rai Pub. Co. (P) Ltd.,
New Delhi, Edition 2002.
2. Dara S.S., A text book of Engineering Chemistry, S. Chand Co. (P) Ltd., New Delhi,
2003.
REFERENCES
1. Samir Sarkar, ”Fuels and Combustion”, Orient Longman, India, 1996.
2. Dr.P.S.Syed Shabudeen Chemistry II, Inder publications, Coimbatore 2009(revised
edition)
3. Derek Pletcher and Frank C Walsh, ”Industrial Electrochemistry”, Blackie Academic
and Professional, London, 1993.
Chairman
Board of Studies
MEC102 ENGINEERING MECHANICS
(Common To CE, AE, ME, MCE, AU,TXT, FT & BIO branches)
L T P C
3 1 0 4
OBJECTIVES
• To understand the concept of equilibrium of particles and rigid bodies.
• To understand the concept of first and second moment of area.
• To understand the concept of various types of frictions.
• To understand the principle of work energy method, Newton’s law and impact of
elastic bodies.
UNIT -I
BASICS & STATICS OF PARTICLES
12hrs
Introduction - Units and Dimensions - Laws of Mechanics Lame’s theorem,
Parallelogram and triangular Laws of forces – Coplanar Forces - Resolution and
Composition of forces – Free body diagram - Equilibrium of a particle.
UNIT- II
EQUILIBRIUM OF RIGID BODIES
12hrs
Moment of a force about point – Varignon s theorem- Moment of a couple-Resolution of
force in to force couple system-Resultant of coplanar non concurrent system - Types of
supports and their reactions- Requirements of stable equilibrium - Equilibrium of Rigid
bodies in two dimensions.
UNIT- III
PROPERTIES OF SURFACES AND SOLIDS
12hrs
First moment of area and the Centroid of sections Rectangle, circle, triangle, T section, I
section Angle section and Hollow section. Second and product moments of plane area
Rectangle, triangle, circle. T Section, I section, Angle section and Hollow section,
Parallel axis theorem and perpendicular axis theorem - Polar moment of inertia.
UNIT- IV
FRICTION
12hrs
Frictional force-Law of coloumb friction, simple contact friction, Rolling resistance and
Belt friction, Ladder friction, Wedge friction
UNIT- V
DYNAMICS OF PARTICLES
12hrs
Kinematics: Rectilinear & Curvilinear motion of particles, Displacements Velocity and
acceleration.
Kinetics: Newton’s law, Work Energy method, Impulse and Momentum, Impact of
elastic bodies.
L: 45, T: 15, Total: 60Hrs
TEXT BOOKS
1. Rajasekaran S, Sankarasubramanian, G, Fundamentals of Engineering Mechanics,
Vikas Publishing House Pvt. Ltd., Second Edition, 2002.
2. Beer, F.P. and Johnson Jr. E.R. Vector Mechanics for Engineers, Vol. 1. Statics and
Vol. 2 Dynamics, McGraw-Hill International Edition, 2004.
Chairman
Board of Studies
REFERENCES
1. Hibbeller, R.C. Engineering Mechanics, Vol, 1 Statics, Vol, 2 Dynamics, Pearson
Education Asia Pvt. Ltd., 2000
2. Ashok Gupta, Interactive Engineering Mechanics Statics A Virtual Tutor, Pearson
Education Asia Pvt. Ltd., New Delhi, 2002.
3. Palanichamy, M.S, and Nagan, S., Engineering Mechanics (Statics & Dynamics)
Tata McGraw Hill, 2001.
4. Irving H, Shames, Engineering Mechanics – Statics and Dynamics, IV Edition,
Pearson Education Asia Pvt. Ltd., 2003.
Chairman
Board of Studies
MEC103 MANUFACTURING TECHNOLOGY – I
(Common to Mechanical and Automobile Engineering)
OBJECTIVES
•
•
L T P C
3 0 0 3
To understand the concept and basic mechanics of metal cutting,
sheet metal forming and bulk deforming processes.
To understand the basic concepts and working of different metal casting and
welding processes.
UNIT- I
METAL CASTING PROCESSES
9hrs
Sand casting – Sand moulds - Type of patterns – Pattern materials – Pattern allowances –
Types of Moulding sand – Properties – Core making – Methods of Sand testing –
Moulding machines – Types of moulding machines – Working principle of Special
casting processes – Shell, investment casting – Ceramic mould – Pressure die casting –
Centrifugal casting – Sand Casting defects – Inspection methods
UNIT- II
FABRICATION PROCESS
10hrs
Fusion welding processes – Types of Gas welding – Equipments used – Flame
characteristics – Filler and Flux materials - Arc welding equipments - Electrodes –
Coating and specifications – Principles of Resistance welding – Spot/butt, seam welding
– Gas metal arc welding – Flux cored – Submerged arc welding – Tig welding –
Principle and application of special welding processes - Plasma arc welding – Thermit
welding – Electron beam welding – Friction welding – Weld defects – Brazing and
soldering process – Methods and process capabilities.
UNIT- III
BULK DEFORMATION PROCESSES
9hrs
Hot working and cold working of metals – Forging processes – Open and close die
forging – Characteristics of the process – Typical forging operations – Rolling of metals
– Flat strip rolling – Types of Rolling mills – Shape rolling operations – Tube piercing –
Defects in rolled parts – Principles of Extrusion – Types of Extrusion – Hot and Cold
extrusion – Principle of rod and wire drawing.
UNIT -IV
SHEET METAL FORMING PROCESSES
8hrs
Sheet metal characteristics - Typical shearing operations, bending and drawing
operations – Stretch forming operations –– Formability of sheet metal – Test methods –
Working principle and application of special forming processes - Hydro forming –
Rubber pad forming – Metal spinning – Explosive forming – Magnetic pulse forming –
Super plastic forming – Process characteristics.
UNIT- V
METAL CUTTING (TURNING) PROCESS
9hrs
Lathe – specifications, types – mechanisms and major Sub-assemblies – operations
performed – work holding and supporting devices – working principle of single and
multi-spindle automats.
Total : 45Hrs
Chairman
Board of Studies
TEXT BOOKS
1. Hajra Choudhury, Elements of Workshop Technology, Vol. I and II, Media
Promotors Pvt. Ltd., Mumbai, 2001.
2. Serope Kalpajian and Steven R.Schmid, Manufacturing Engineering and
Technology, Pearson Education, Inc. 2002.
REFERENCES
1. B.S. Magendran Parashar and R.K. Mittal, Elements of Manufacturing Processes,
Prentice Hall of India, New Delhi 2003.
2. P.N. Rao, Manufacturing Technology, Tata McGraw-Hill Publishing Limited, II
Edition, 2002.
3. P.C. Sharma, Production Technology, S. Chand and Company, New Delhi, IV
Edition, 2007.
4. Begman, Manufacturing Process – John Wilely & Sons, IX Edition, 2004.
Chairman
Board of Studies
CHY401 CHEMISTRY LABORATORY
(Common to all branches of Engineering and Technology)
L T P C
0 0 3 1
OBJECTIVES
Should be Conversant with the theoretical principles and experimental procedures for
quantitative estimations and hands on experience in using analytical equipments.
PREPARATION OF SOLUTIONS (STANDARD)
1. Preparation of molar and normal solutions of the following substances - oxalic acid,
sodium carbonate, sodium hydroxide, hydrochloric acid.
2. Preparation of buffer solutions: borate buffer, phosphate buffer using Henderson
equation.
WATER TESTING
3. Determination of total hardness, temporary & permanent hardness of water by EDTA
method.
4. Determination of DO content by Winkler s method.
5. Determination of alkalinity in a water sample.
6. Determination of chloride content of water sample by argentometric method.
ELECTRO CHEMICAL ANALYSIS
7. To find out the strength of given hydrochloric acid by pH meter.
8. Conductometric titration of mixture of acids.
9. Conductometric precipitation titration using BaCl2, Na2SO4.
10. Redox titration Iron Vs. dichromate.
PHOTOMETRY
11. To determine the iron content of an unknown solution (1, 10 phenanthroline /
Thiocyanate method)
12. To determine sodium and potassium in water
VISCOMETRY
13. Determination of molecular weight of a polymer.
Total : 45Hrs
REFERENCE S
1. Vogel A.I., A Text of Quantitative Inorganic Analysis, ELBS, London.
2. Shoemaker D.P., & C.W. Garland., Experiments in Physical Chemistry, McGrawHill, London.
Chairman
Board of Studies
CSE451 ADVANCED PROGRAMMING LABORATORY
(For all branches other than CSE & IT)
L T P C
0 0 3 1
List of Programs
UNIX & C
The following programs are to be executed in Linux environment.
C programs are expected to employ pointers wherever possible.
1. Create a file which contains the student details and perform the following operations.
a.
b.
c.
d.
Display the contents of a file on the screen.
Rename the file
Create a new directory and move the above file into it.
Copy the contents of two files into a third file.
2. Create a file which contains the employee details such as Employee No., Employee
Name, Employee Salary, Employee Designation and perform the following
operations.
e. Search for a particular employee.
f. Create a file containing details of employees with salary greater than 5000
using pipes.
3. List the files and directories created and change the access rights of the employee file
as follows.
g. Only readable
h. Only writable
4. Write a C program to find the roots of a quadratic equation of the form ax2+bx+c=0.
The roots can be calculated using the formula –b± √b2-4ac.
2a
Write a function to calculate the roots of the given equation. The function must
use three formal parameters to receive the coefficients a, b and c and two pointer
parameters to send the roots to the calling function.
5. Write a C program to find the sum of two (nxn) matrices and to print the resultant
matrix using pointers.
6. Write a C program to count
a. No .of characters.
b. No .of words.
c. No .of lines / sentences
in a given text file.
7. Write a C program that compares two text files and returns 0 if they are identical and
1 if they are not identical
Chairman
Board of Studies
MATLAB PROGRAMS
8. Matrices – Addition, subtraction, multiplication, Inverse and Determinant of a matrix
calculation.
9. Polynomials –Evaluating & Plotting, determining roots of a polynomial.
10. Polynomial curve fitting.
11. Numerical integration.
12. Differential equations- numerical solution.
Total : 45Hrs
Chairman
Board of Studies
MEC402 MANUFACTURING TECHNOLOGY LAB – I
(Common to Mechanical and Automobile Engineering)
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
L T P C
0 0 3 1
Facing, plain and step turning
Taper turning using compound rest
Taper turning using taper turning attachment
Single start V thread cutting and knurling
Boring and internal thread cutting
Mould with solid and split patterns
Mould with loose-piece pattern
Mould with Core
Testing of moulding sand – Grain fineness number, Green strength,
Permeability
Arc Welding of Lap and T- joints
Gas Welding of a joint
MIG Welding of a joint
Conversion of round rod in to square rod
Conversion of round rod in to hexagonal bolt head
Total : 45Hrs
Chairman
Board of Studies
GHE102 PERSONAL VALUES - II
L T P C
0 0 2 1
UNIT – I
5hrs
Understanding Self – Who am I? – self realisation - our different self – Kaya Kalpam –
Theory & practice – physical exercises – Completion – Meditation III stage (Thuria
Initiations)
UNIT – II
5hrs
Harmony between body, mind & soul – physical well being – Exercises practical
benefits - Benefits of meditations – benefits of Kaya Kalpa – Applying the practices in
Life –
UNIT – III
5hrs
Personal values – Identifications – Adaptations – Implementations – practices & Benefits
– Exercises, Meditation and Kaya Kalpa practices – perceptions.
Total : 15Hrs
Chairman
Board of Studies
SEMESTER - III
Chairman
Board of Studies
MAT104 ENGINEERING MATHEMATICS III
3104
(Common for III Semester CE, ME, MCE, EEE, EIE, ECE AUE & AE)
OBJECTIVES
•
To impart analytical skills in the areas of boundary value problems and transform
techniques.
•
To understand the basic concepts of partial differential equations
1. PARTIAL DIFFERENTIAL EQUATIONS
9hrs
Formation of partial differential equations by elimination of arbitrary constants and
arbitrary functions - Solution of standard types of first order partial differential equations
(excluding reducible to standard types) – Lagrange’s linear equation – Linear
Homogeneous partial differential equations of second and higher order with constant
coefficients.
2. FOURIER SERIES
9hrs
Dirichlet’s conditions – General Fourier series – Odd and even functions – Half range
sine series – Half range cosine series – Parseval’s identity – Harmonic Analysis.
3. BOUNDARY VALUE PROBLEMS
9hrs
Classification of second order quasi linear partial differential equations – Solutions of
one dimensional wave equation – One dimensional heat equation (excluding insulated
ends) – Steady state solution of two-dimensional heat equation (Insulated edges
excluded) – Fourier series solutions in Cartesian coordinates.
4. FOURIER TRANSFORM
9hrs
Infinite Fourier transform pair – Infinite Sine and Cosine transforms – Properties –
Transforms of simple functions – Convolution theorem – Parseval’s identity.
5. Z –TRANSFORM
9hrs
Z-transform - Elementary properties – Convolution theorem- Inverse Z – transform (by
using partial fractions, residue methods and convolution theorem) - Solution of
difference equations using Z - transform.
L : 45 T: 15 Total: 60hrs
Chairman
Board of Studies
TEXT BOOK:
1. Veerarajan T., “Engineering Mathematics” (for semester III), Third Edition, Tata
McGraw Hill, New Delhi (2007)
REFERENCES:
1. Grewal B.S., “Higher Engineering Mathematics”, Thirty Sixth Edition, Khanna
Publishers, Delhi, 2001.
2. Kandasamy P., Thilagavathy K. and Gunavathy K., “Engineering Mathematics
Volume-III”, S. Chand & Company ltd., New Delhi, 1996.
3. Ian Sneddon. , Elements of partial differential equations, McGraw – Hill New Delhi,
2003.
4. Arunachalam T., “Engineering Mathematics I”, Sri Vignesh Publications, Coimbatore.
(Revised) 2009.
Chairman
Board of Studies
AUE101 - MECHANICS OF MACHINES
3104
OBJECTIVE
To expose the students the different mechanisms, their method of working, Forces
involved and consequent vibration during working
1. MECHANISMS
12hrs
Machine Structure – Kinematic link, pair and chain – Grueblers criteria – Constrained
motion – Degrees of freedom - Slider crank and crank rocker mechanisms – Inversions –
Applications – Kinematic analysis of simple mechanisms – Determination of velocity
and acceleration.
2. FRICTION
12hrs
Friction in screw and nut – Pivot and collar – Thrust bearing – Plate and disc clutches –
Belt (flat and V) and rope drives. Ratio of tensions – Effect of centrifugal and initial
tension – Condition for maximum power transmission – Open and crossed belt drive.
3. GEARING AND CAMS
12hrs
Gear profile and geometry – Nomenclature of spur and helical gears – Gear trains:
Simple, compound gear trains and epicyclic gear trains - Determination of speed and
torque- Cams – Types of cams – Design of profiles – Knife edged, flat faced and roller
ended followers with and without offsets for various types of follower motions.
4. BALANCING
12hrs
Static and dynamic balancing – Single and several masses in different planes –Balancing
of reciprocating masses- primary balancing and concepts of secondary balancing –
Single and multi cylinder engines (Inline) – Balancing of radial V engine – direct and
reverse crank method.
5. VIBRATION
12hrs
Free, forced and damped vibrations of single degree of freedom systems – Force
transmitted to supports – Vibration isolation – Vibration absorption – Torsional vibration
of shaft – Single and multi rotor systems – Geared shafts – Critical speed of shaft.
L: 45 T: 15 Total: 60
Chairman
Board of Studies
TEXT BOOKS
1. Rattan.S.S, “Theory of Machines”, Tata McGraw–Hill Publishing Co., New Delhi,
2004.
2. Ballaney.P.L, “Theory of Machines”, Khanna Publishers, New Delhi, 2002.
3. R.S. Khurmi and J.K. Gupta, “Theory of Machines”, S.Chand&co-2005.
REFERENCES
1. Rao, J.S and Dukkipati, R.V, “Mechanism and Machine Theory”, Second Edition,
Wiley Eastern Ltd., 1992.
2. Malhotra, D.R and Gupta, H.C., “The Theory of Machines”, Satya Prakasam, Tech.
India Publications, 1989.
3. Gosh, A. and Mallick, A.K., “Theory of Machines and Mechanisms”, Affiliated East
West Press, 1989.
4. Shigley, J.E. and Uicker, J.J., “Theory of Machines and Mechanisms”, McGraw-Hill,
1980.
Chairman
Board of Studies
MEC105 ENGINEERING THERMODYNAMICS
3104
(Use of standard thermodynamic tables, Mollier diagram, Psychometric chart and
Refrigerant property tables are permitted)
OBJECTIVES
•
To understand the basic concepts and the applications of thermodynamic laws to
various processes.
•
To study the formation of steam and steam power cycles.
1. BASIC CONCEPTS AND FIRST LAW
9hrs
Basic concepts - concept of continuum, macroscopic approach: thermodynamic systems closed, open and isolated: Property, state, path and process, quasi-static process, work,
modes of work, Zeroth law of thermodynamics – concept of temperature and heat.
Concept of ideal and real gases. First law of thermodynamics – SFEE - Application to
closed and open systems
2. SECOND LAW AND CONCEPTS OF ENTROPY
9hrs
Second law of thermodynamics – Kelvin’s and Clausius statements of second law,
Reversibility and irreversibility. Carnot cycle, reversed Carnot cycle, efficiency, COP,
Carnot theorem. Thermodynamic temperature scale, Clausius inequality, concept of
entropy, entropy of ideal gas, principle of increase of entropy – absolute entropy
(Descriptive only).
3. FORMATION OF STEAM AND VAPOUR CYCLES
9hrs
Formation of steam constant pressure, types of steam, steam tables and uses, external
work done during evaporation, Internal energy of Steam, dryness fraction of steam,
entropy of steam – Mollier diagram steam power cycles, standard Rankine cycle,
modified Rankine cycle. Reheat and regenerative cycle (Descriptive only).
Chairman
Board of Studies
4. THERMO DYNAMIC RELATIONS
9hrs
General Aspects, fundaments of partial differentiation, general thermodynamic relations,
T-ds relations, equation for I.E. Clausius Clapeyron equations, Joule Thomson
Coefficient - T-ds relations, Maxwell relations.
5. PSYCHROMETRY
9hrs
Psychrometry and psychrometric charts, property calculations of air vapour mixtures.
Psychrometric process – Sensible heat exchange processes. Latent heat exchange
processes. Adiabatic mixing, evaporative cooling, problems.
L: 45 T: 15 Total: 60
TEXT BOOKS:
1. Nag, P.K., “Engineering Thermodynamics”, Tata McGraw-Hill, New Delhi, 2008.
2. Cengel, “Thermodynamics An Engineering Approach”, Tata McGraw-Hill, New
Delhi, 2008.
REFERENCES:
1. Rajput, R.K., “Engineering Thermodynamics, Lakshmi Publications, New Delhi,
2008.
2. Arora, C.P, “Thermodynamics”, Tata McGraw-Hill, New Delhi, 2004.
3. Merala, C. Pother, Craig, W., Somerton, “Thermodynamics for Engineers”, Schaum
Outline Series, McGraw-Hill, 2008.
Chairman
Board of Studies
MEC106 FLUID MECHANICS AND MACHINERY
3104
OBJECTIVES
•
To study and understand the properties of fluids.
•
To study and understand the working of hydraulic machines.
1. BASIC CONCEPTS AND PROPERTIES
9hrs
Fluid – definition, distinction between solid and fluid - Units and dimensions –
Properties of fluids - density, specific weight, specific volume, specific gravity,
viscosity, compressibility, vapour pressure, capillary and surface tension - Fluid statics:
concept of fluid static pressure, absolute and gauge pressures.
2. FLIUD KINEMATICS AND FLUID DYNAMICS
9hrs
Fluid Kinematics - Flow visualization - lines of flow - types of flow - velocity field and
acceleration - continuity equation (one and three dimensional differential forms)- quation
of streamline - stream function - velocity potential - circulation - flow net – fluid
dynamics - equations of motion - Euler's equation along a streamline - Bernoulli's
equation - Applications – Venturi meter, orifice meter and pitot tube – dimensional
analysis - Buckingham's p theorem- applications - similarity laws and models.
3. INCOMPRESSIBLE FLUID FLOW
9hrs
Viscous flow - Navier-Stoke's equation (Statement only) - Shear stress, pressure gradient
relationship - Laminar flow through circular pipes (Hagen Poiseulle's) - Hydraulic and
energy gradient - flow through pipes - Darcy –Weisbach’s equation - pipe roughness friction factor- Moody's diagram-minor losses - flow through pipes in series and in
parallel - power transmission.
4. HYDRAULIC TURBINES
9hrs
Hydro turbines: Definition and classifications - Pelton turbine - Francis turbine Propeller turbine - Kaplan turbine - working principles - velocity triangles - work done specific speed - efficiencies -performance curve for turbines.
Chairman
Board of Studies
5. HYDRAULIC PUMPS
9hrs
Pumps: definition and classifications - Centrifugal pump: classifications, working
principle, velocity triangles, specific speed, efficiency and performance curves cavitations in pumps - Reciprocating pump: classification, working principle, indicator
diagram, work saved by air vessels and performance curves Positive Displacement
pumps.
L: 45 T: 15 Total: 60
TEXT BOOKS:
1. Bansal, R.K., “Fluid Mechanics and Hydraulics Machines”, Laxmi publications (P)
Ltd, New Delhi, 2005.
2. Kumar, K.L., “Engineering Fluid Mechanics”, Eurasia Publishing House (P) Ltd, New
Delhi, 2005.
REFERENCES:
1. Som, S.K., and Biswas, G., “Introduction to Fluid Mechanics and Fluid Machines”,
Tata McGraw-Hill, New Delhi, 2004.
2. White, F.M., “Fluid Mechanics”, Tata McGraw-Hill, New Delhi, 2003.
3. Ramamirtham, S., "Fluid Mechanics and Hydraulics and Fluid Machines", Dhanpat
Rai and Sons, Delhi, 2000.
Chairman
Board of Studies
MEC107 MANUFACTURING TECHNOLOGY - II
3003
OBJECTIVES
•
To study the basic concepts of metal cutting.
•
To study the working principle, construction details and applications of lathe,
shaping machine, planning machine, drilling machine, broaching machine,
grinding machine and milling machine.
1. THEORY OF METAL CUTTING
9hrs
Mechanism of metal cutting – types – cutting force – chip formation – Merchant’s circle
diagram – calculations – tool geometry – machinability – tool wear – tool life – cutting
tool materials – cutting fluids.
2. LATHE, SHAPING AND PLANING MACHINES
9hrs
Turret lathe operations – turret lathe tooling layout – Automatic lathes – classifications –
Capstan and turret lathes – Main parts - shaping and planning machines – types –
mechanism – principle of operation – work holding devices.
3. DRILLING, BROACHING AND GRINDING MACHINES
9hrs
Drilling machines – specifications, types - feed mechanism, operations – drill tool
nomenclature-broaching –specifications, types, tool nomenclature, broaching operations
- Grinding – types of grinding machines- honing, lapping, super finishing, polishing and
buffing, abrasive jet grinding - grinding wheels, specifications -bonds-reconditioning of
grinding wheels.
4. MILLING AND GEAR CUTTING MACHINES
9hrs
Milling-specifications-types-cutter nomenclature – types of cutter – milling process –
indexing – profile milling – gear generation – gear shaping and gear hobbing –
specifications- cutters – bevel gear generators – gear finishing methods.
5. NON-TRADITIONAL MACHINING
9hrs
Classification of machining processes – process selection - Ultrasonic Machining –
Abrasive Jet Machining – Laser Beam Machining – EDM –Wire Cut –ECM.
Total: 45hrs
Chairman
Board of Studies
TEXT BOOKS:
1. Jain, R.K., and Gupta, S.C., “Production Technology”, Khanna Publishers, New Delhi,
2004.
2. Sharma P.C., “A Text Book of Production Technology”, S.Chand & Company Ltd.,
New Delhi, 2003.
REFERENCES:
1. Hajra Choudhry, S.K., and Bose, S.K., “Workshop Technology Vol II”, Media
Promoters and Publishers Pvt. Ltd., Bombay, 2004.
2. Suresh Dalela, and Shankar, R., “ A Text book of Production Engineering”, Galgotia
Publications (P) Ltd., New Delhi, 2000.
3. Amstead B.H., “Manufacturing Processes”, Phillip Ostwald, L.Begemon, John Wiley
and Sons, 2002.
4. Rajput, R.K., “Manufacturing Technology”, Laxmi Publications (P) Ltd, New Delhi,
2007
Chairman
Board of Studies
AUE 102 AUTOMOTIVE MATERIALS & METALLURGY
3003
Objective
To impart knowledge on the structure, properties, treatment, testing and applications of
metals and on non-metallic materials so as to identity and select suitable materials for
various engineering applications.
1. CONSITITUION OF ALLOYS AND PHASE DIAGRAMS
10hrs
Overview of crystal structures and defects, Constitution of alloys – Solid solutions,
substitutional and interstitial – phase diagrams, Isomorphism, eutectic, peritectic,
eutectoid and peritectroid reactions, Iron – Iron carbide equilibrium diagram.
Classification of steel and cast Iron microstructure, properties and application.
2. HEAT TREATMENT
11hrs
Definition – Full annealing, stress relief, recrystallisation and spheroidizing –
normalizing, hardening and Tempering of steel. Isothermal transformation diagrams –
cooling curves superimposed on I.T. diagram CCR - Hardenability, Jominy end quench
test – Austempering, martempering – case hardening, carburizing, nitriding, cyaniding,
carbonitriding – Flame and Induction hardening.
3. NON-METALLIC MATERIALS
9hrs
Polymers – types of polymer, commodity and engineering polymers – Properties and
applications of PE, PP, PS, PVC, PMMA, PET, PC, PA, ABS, PI, PAI, PPO, PPS,
PEEK, PTFE
Polymers – Urea and Phenol formal deliydes – Engineering Ceramics – Properties and
applications of Al2O3, SiC,Si3, N4, PSZ and Sialon – Fibre and particulate reinforced
composites.
4. MECHANICAL PROPERTIES AND TESTING
6hrs
Mechanism of plastic deformation, slip and twinning – Types of fracture – Testing of
materials under tension, compression and shear loads – Hardness tests (Brinell, Vickers
and Rockwell) Impact test Izod and charpy, fatigue and creeptest.
Chairman
Board of Studies
5. SELECTION OF MATERIALS
9hrs
Criteria of selecting materials for automotive components viz cylinder block, Cylinder
head, piston, piston ring, Gudgeon pin, connecting rod, crank shaft, crank case, cam, cam
shaft, engine
valve, gear wheel , clutch plate, axle, bearings, chassis, spring, body panel, radiator,
brake lining etc.
Total: 45hrs
Text Books
1. Kenneth G.Budinski and Michael K.Budinski “Engineering Materials” Prentice-Hall
of India Private Limited, 4th Indian Reprint 2002.
References
1. William D Callsber “Material Science and Engineering”, John Wiley and Sons 1997.
2. Raghavan.V.Materials Science and Engineering, Prentice Hall of India Pvt. Ltd., 1999
3. Sydney H.Avner “Introduction to Physical Metallurgy” McGraw-Hill Book Company,
1994.
Chairman
Board of Studies
AUE401 MACHINE DRAWING
2033
OBJECTIVES
•
To study the fits and tolerances.
•
To understand the concepts of machine components assemblies.
1. BASIC CONCEPTS OF MACHINE DRAWING
3hrs
BIS codes for Engineering Drawing – Applications of cycloids, involutes and spirals Abbreviations – Conventional representation of standard components – Systems of
dimensioning and dimensioning of common components –– sectioning conventions –
Representation of welding joints, reverted joints and screw threads.
2. FASTENERS, JOINTS AND COUPLINGS
4hrs
Fasteners – Locking devices – cotter joint with sleeve – knuckle joint – Gib and cotter
joint – couplings – universal coupling, protected and unprotected type flanged coupling.
3. FITS AND TOLERANCES
8hrs
Types of fits – types of tolerance - representation of tolerance on drawings – calculation
of minimum and maximum clearances and allowances – Geometrical tolerance – form
and position tolerances – symbols – indicating geometrical tolerances on drawings 4. PRODUCTION DRAWINGS
10hrs
Surface finish, symbols and representing surface finish on drawings, Introduction to
selective assembly and interchangeable manufacture, production drawing of piston,
piston pin, connecting rod, single cylinder connecting rod.
5. ASSEMBLY OF MACHINE PARTS
35hrs
Plummer block ––– stop valve, Screw jack –– Machine vice –– connecting rod and
piston assembly, valve train assembly, clutch plate assembly.
Total : 60hrs
Chairman
Board of Studies
TEXT BOOKS:
1. Gopalakrishna, K.R., “Machine Drawing”, Subhas publishing House, Bangalore,
2002.
2. “Engineering Drawing practice for Schools and Colleges” – Bureau of Indian
standards.
REFERENCES:
1. Sidheswar, N., Kannaiah, P., and Sastri, V.V.S., “Machine Drawing”, TMH New
Delhi, 2006.
2. John, K.C., and Verghese, P.L., “Machine Drawing”, Jovast Publishers, Trissur, 2004.
3. “Faculty of Mechanical Engineering”, “PSG Design Data Book”, DPV Printers, 2006.
4. Ajeet singh, “Machine Drawing”, TMH, New Delhi, 2008.
5. Narayanan, K.L., Kanniah, P., and Venkata Reddy, K., “Machine Drawing”, New Age
International Publications, 2004.
Chairman
Board of Studies
MEC 404 FLUID MECHANICS AND MACHINERY LAB
0031
LIST OF EXPERIMENTS
1. Determination of the Coefficient of discharge of a given Orifice meter.
2. Determination of the Coefficient of discharge of a given Venturi meter.
3. Determination of friction factor for a given set of pipes.
4. Performance Characteristic curves of centrifugal pump
5. Performance Characteristic curves of Gear pump.
6. Performance characteristics of Pelton wheel.
7. Performance characteristics of Francis turbine.
8. Performance Characteristic curves of Kaplan turbine.
Total : 45
Chairman
Board of Studies
AUE402 MANUFACTURING TECHNOLOGY LAB –II
0031
LIST OF EXPERIMENTS
1. Gear cutting – Spur Gear cutting
2. Step milling, Contour profile milling
3. Key way cutting using milling machine
4. Dove tail machining using shaper machine
6. V-block & Step block machining using shaping machine
7. Internal and external keyway machining using vertical slotting machine
8. Drilling, tapping and reaming
9. Cylindrical grinding of a shaft
10. Surface grinding
Total : 45
Chairman
Board of Studies
GHE 103 HUMAN EXCELLENCE – FAMILY VALUES
0021
(Common to III Semester all Branches)
1. Family value-meaning –Introduction-values-Blessings for family peace-Restraint in
family life- harmony in family-Interactive workshop.
2. Blissful married life-Greatness of good family relationship – Family life & Spiritual
development.
3. Love and compassion –Greatness of womanhood –Food is medicine (healthy food
habits)
4. Simple physical exercises.
5. Kayakalpa Yoga
6. Sun Rays Therapy
7. Padmasana.
8. Vajrasana.
9. Chakrasana & Viruchasana
10. Meditation
Chairman
Board of Studies
SEMESTER - IV
Chairman
Board of Studies
MAT108 NUMERICAL METHODS
3104
(Common for IV Semester ME, CE, MCE, EEE, AE, TXT, EIE & AUE)
OBJECTIVES
At the end of the course, the students would be acquainted with the basic concepts in
numerical methods and their uses in engineering problems.
1. NUMERICAL SOLUTION OF ALGEBRAIC AND TRANSCENDENTAL
EQUATIONS
9hrs
Linear interpolation method (method of false position) – Iteration method - Newton’s
method - Solution of linear system by Gaussian elimination and Gauss-Jordan methodsIterative methods: Gauss Jacobi and Gauss-Seidel methods – Inverse of matrix by Gauss
– Jordan method.
2. INTERPOLATION
9hrs
Newton’s forward and backward difference formulas – Stirling’s formula – Divided
differences – Newton’s divided difference formula - Lagrange’s interpolation
(derivations are excluded for all methods).
3. NUMERICAL DIFFERENTIATION AND INTEGRATION
9hrs
Numerical differentiation: Derivatives by using Newton’s forward , backward and
divided differences – Derivatives by using Stirling’s formula - Numerical integration by
Trapezoidal and Simpson’s 1/3 and 3/8 rules – Double integrals using Trapezoidal and
Simpson’s 1/3 rules.
4. NUMERICAL SOLUTION OF ORDINARY DIFFERENTIAL EQUATIONS
9hrs
Single step methods: Taylor’s series method – Euler and Improved Euler methods for
solving first order equations – Fourth order Runge – Kutta method for solving first and
second order equations – Multistep method: Milne’s predictor and corrector method.
Chairman
Board of Studies
5. NUMERICAL SOLUTION OF PARTIAL DIFFERENTIAL EQUATIONS
9hrs
Finite difference solution of one dimensional heat equation by Bender Schmidt and
Crank Nicholson methods – One dimensional wave equation by explicit method and two
dimensional Laplace and Poisson equations.
L : 45 T: 15 Total: 60
TEXT BOOK:
1. Venkataraman M.K., “Numerical Methods in Science and Engineering”, The National
Publishing company, 5th Edition, May 2003.
REFERENCES:
1. Gerald C. F. and Wheatley P.O, “Applied Numerical Analysis”, Sixth Edition, Pearson
Education Asia, New Delhi, 2002.
2. Sastry S.S, “Introductory Methods of Numerical Analysis”, Third Edition, Prentice –
Hall of India Pvt Ltd, New Delhi, 2003.
3. Kandasamy P., Thilagavathy K. and Gunavathy K., “Numerical Methods”, S.Chand
Co. Ltd., New Delhi, 2007.
4. Arunachalam. T., “Numerical Methods”, Inder Publications, Coimbatore, 2009.
Chairman
Board of Studies
MEC 109 STRENGTH OF MATERIALS
3104
OBJECTIVES
•
To study, stresses, strains and deformation in components
•
To study the effect of size and shape on stress and deformation of the
components
1. STRESS, STRAIN AND DEFORMATION OF SOLIDS
9hrs
Rigid and Deformable bodies – Strength, Stiffness and Stability – Stresses; Tensile,
Compressive and Shear – Strain – Poisson’s ratio – lateral stress – Deformation of
simple and compound bars under axial load – Thermal stress – Elastic constants – Strain
energy and unit strain energy – Strain energy in uni axial loads.
2. BEAMS – LOADS AND STRESSES
9hrs
Types of beams: Supports and Loads – Shear force and Bending Moment in beams –
Cantilever, Simply supported and Overhanging beams – Stresses in beams – Theory of
simple bending – Stress variation along the length and in the beam section – Effect of
shape of beam section on stress induced – Shear stresses in beams – Shear flow
3. TORSION
9hrs
Analysis of torsion of circular bars – Shear stress distribution – Bars of Solid and hollow
circular section –Twist and torsion stiffness – Compound shafts – Fixed and simply
supported shafts – Application to close-coiled helical springs – Maximum shear stress in
spring section including Wahl Factor – Design of helical coil springs.
4. BEAM DEFLECTION
9hrs
Elastic curve of Neutral axis of the beam under normal loads – Evaluation of beam
deflection and slope: Double integration method, Macaulay Method,–Columns – End
conditions – Equivalent length of a column – Euler equation – Slenderness ratio –
Rankine formula for columns
Chairman
Board of Studies
5. ANALYSIS OF STRESSES IN TWO DIMENSIONS
9hrs
Biaxial state of stresses at a point – Stresses on inclined plane – Principal planes and
stresses – Mohr’s circle for biaxial stresses – Maximum shear stress – Thin cylindrical
and spherical shells – Deformation in thin cylindrical and spherical shells
L : 45 T : 15 Total : 60
TEXT BOOKS:
1. Popov, E.P, “Engineering Mechanics of Solids”, Prentice-Hall of India, New Delhi,
2007.
2. Beer, F. P. and Johnston, R., “Mechanics of Materials”, 3rd edition, McGraw-Hill,
2008.
3. Rajput, R. K, “A textbook of Strength of Materials”, S. Chand, 2007.
REFERENCES:
1. Nash, W.A, “Theory of problems in Strength of Materials”, Schaum Outline Series,
McGraw-Hill Book Co, New York, 1998.
2. Kazimi, S.M.A, “Solid Mechanics”, Tata McGraw-Hill Publishing Co, New Delhi,
2001.
3. Ryder, G.H., “Strength of Materials”, Macmillan India Ltd., 2002.
4. Ray Hulse, Keith Sherwin & Jack Cain, “Solid Mechanics”, Palgrave ANE Books,
2004.
5. Bansal, R.K., “A Text Book of Strength of Materials”, Laxmi Publications, 2009.
6. Ramamrutham, S., “Strength of Materials”, Dhanpal Rai, Publishing Company (P)
Ltd., 2005
Chairman
Board of Studies
EEE251 BASICS OF ELECTRICAL AND ELECTRONICS ENGINEERING
3003
(Common to III Semester TXT & Aero)
OBJECTIVES
•
To introduce the basic concept of Electrical and Electronics theory
•
To introduce the basic working principles of machines
•
To introduce the basic working of fundamental Electronics circuits
1. INTRODUCTION
Units, Ohm’s Lab, Kirchhoff’s laws., energy and power. The resistance parameter, The
Inductance Parameter, The capacitance Parameter, sinusoidal functions – terminology,
Average and Effective Values of Periodic functions, instantaneous and Average power,
Power Factor, Phasor Representation of Sinusoids, Sinusoidal Steady – State Response
of Single Elements – RLC. The Series RL circuit, the satires RC circuit, The RLC
Circuit.
8hrs
2. ELECTRIC MOTORS:
DC Drives -DC motors, principles of operation, torque equation, speed, torque
characteristics of series, shunt and compound motors. Three phase induction motors,
principle of operation, torque equation, speed, torque characteristics of series, shunt and
compound motors, cage and wound rotor types, single phase induction motors. Principle
of operation, method of starting, types of single phase motors. Industrial Applications:
Factors to be considered for selection of motors, determination of power rating of drive
motors, selection of motors for textile industry. Introduction about recent developments
in the textile machinery.
11hrs
3. ELECTRONIC DEVICES:
Operation of PN junction diodes, VI Characteristics, zener diode, BJT and FET working principles and characteristics. MOSFET, types, principle of operation and
characteristics. Opto Electronic Devices-Introduction, types, photo conductive, photo
diode, phototransistor. Light emitting diode - Principles and Applications.
8hrs
Chairman
Board of Studies
4. ELECTRONIC CIRCUITS:
(Qualitative analysis only) Half wave and full wave rectifier, capacitive filters, zener
voltage regulator, RC coupled amplifier. Operational amplifiers, ideal op-amps
characteristics, inverting and Non-inverting amplifier, difference amplifiers, op-amp
applications.
9hrs
5. DIGITAL ELECTRONICS:
Number systems - binary, octal, hexadecimal, logic gates- AND, OR, NOT, NAND,
NOR, EXOR, EXNOR, Half adder, full adder, parallel adder/subractor, flip flops, RS,
JK, JK Master slave, D and T type.
9hrs
Total :45
TEXT BOOKS:
1. Hughes .E "Electrical Technology", ELBS and Longman group Ltd., 6th edition, 1987
2. Murugesh Kumar .K and Jaganathan .V "Basic Electrical and Electronics
Engineering", Vikas Publishing Ltd., New Delhi, 2001.
REFERENCES:
1. Boylested, "Electronic devices and Integrated circuits", PHI Publishers, 1997.
2. Pillai .S.K, "A First Course on Electrical Drives", Wiley Eastern Ltd., Bombay 1989
Chairman
Board of Studies
AUE104 APPLIED THERMODYNAMICS AND HEAT TRANSFER
3104
1. GAS POWER CYCLES
9hrs
Air standard cycles-Otto-Diesel-Dual-Work output, Efficiency and MEP calculations –
comparison of the cycles for same compression ratio and heat addition, same
compression ratio and heat rejection, same peak pressure, peak temperature and heat
rejection, same peak pressure and heat input, same peak pressure and work output ,
Brayton cycle with intercooling, reheating and regeneration.
2. RECIPROCATING AIR COMPRESSORS & REFRIGEREATION CYCLES
9hrs
Single acting and double acting air compressors, work required, effect of clearance
volume, volumetric efficiency, isothermal efficiency, free air delivery, multistage
compression, condition for minimum work. Fundamentals of refrigeration, C.O.P.,
reversed carnot cycle, simple vapour compression refrigeration system, T-S, P-H
diagrams, simple vapour absorption refrigeration system, desirable properties of an ideal
refrigerant.
3. CONDUCTION
9hrs
Basic Concepts – Mechanism of Heat Transfer – Conduction, Convection and Radiation
– General Differential equation of Heat Conduction – Fourier Law of Conduction –
Cartesian and Cylindrical Coordinates – One Dimensional Steady State Heat Conduction
– Conduction through Plane Wall, Cylinders and Spherical systems – Composite
Systems – Conduction with Internal Heat Generation – Extended Surfaces – Unsteady
Heat Conduction – Lumped Analysis – Use of Heislers Chart.
4. CONVECTION
10hrs
Basic Concepts – Convective Heat Transfer Coefficients – Boundary Layer Concept –
Types of Convection – Forced Convection – Dimensional Analysis – External Flow –
Flow over Plates, Cylinders and Spheres – Internal Flow – Laminar and Turbulent Flow
– Combined Laminar and Turbulent – Flow over Bank of tubes – Free Convection –
Dimensional Analysis – Flow over Vertical Plate, Horizontal Plate, Inclined Plate,
Cylinders and Spheres.
Chairman
Board of Studies
5. RADIATION
8hrs
Basic Concepts, Laws of Radiation – Stefan Boltzman Law, Kirchoff Law –Black Body
Radiation –Grey body radiation Shape Factor Algebra – Electrical Analogy – Radiation
Shields –Introduction to Gas Radiation.
L : 45 T : 15 Total : 60
TEXT BOOKS
1. R.K.Rajput “Applied Thermodynamics”, Laxmi Publishing Co.,New Delhi,2007
2. J.P. Holman “Heat Transfer”, Tata Mc Graw –Hill, 2003
REFERENCES
1. P.K.Nag ”Basic and applied Thermodynamics” Tata McGraw –Hill Publishing Co.
Ltd, New Delhi, 2004
2 P..K.Nag “ Heat Transfer”, Tata McGraw-Hill, New Delhi, 2002
3. C.P Kothandaraman “Fundamentals of Heat and Mass Transfer” New Age
International, New Delhi, 1998
Chairman
Board of Studies
AUE 105 AUTOMOTIVE CHASSIS
3003
OBJECTIVE:
Study of the Constructional details and Theory of important drive line, Structural,
Steering, Braking and Suspension Systems of Automobiles. Problem–Solving in Steering
Mechanism, Propeller Shaft, Braking and Suspension Systems are to be done.
1. INTRODUCTION
9hrs
Types of Chassis layout, with reference to Power Plant location and drive, various types
of frames, Loads acting on vehicle frame, Constructional details and materials for
frames, Testing of frames, Types of Front Axles and Stub Axles, Front Wheel Geometry,
namely, Castor, Camber, King Pin Inclination and Toe–in, Condition for True Rolling
Motion of Wheels during Steering, Ackerman’s and Daut’s Steering Mechanisms,
Steering Error Curve, Steering Linkages, Different Types of Steering Gears, Slip Angle,
Over–Steer and Under–Steer, Reversible and Irreversible Steering, Power–Assisted
Steering.
2. DRIVE LINE
9hrs
Effect of Driving Thrust, torque reactions and side thrust, Hotchkiss drive, torque tube
drive, radius rods and stabilizers, Propeller Shaft, Universal Joints, Constant Velocity
Universal Joints, Front Wheel drive, Final drive, different types, Double reduction and
twin speed final drives, Multi–axled vehicles, Differential principle and types,
Differential housings, Non–Slip differential, Differential locks, Final drive of Crawler
Tractors.
3. AXLES
9hrs
Construction and Design of Drive Axles, Types of Loads acting on drive axles, Full –
Floating, Three–Quarter Floating and Semi–Floating Axles, Axle Housings and Types,
Types and Constructional Details of Different Types of Wheels and Rims, Different
Types of Tyres and their constructional details.
Chairman
Board of Studies
4. SUSPENSION SYSTEM
9hrs
Need for Suspension System, Types of Suspension Springs, Constructional details and
characteristics of Single Leaf, Multi–Leaf, Coil, Torsion bar, Rubber, Pneumatic and
Hydro – elastic Suspension Spring Systems, Independent Suspension System, Shock
Absorbers, Types and Constructional details, Design of Leaf and Coil Springs.
5. BRAKING SYSTEM
9hrs
Theory of Automobile Braking, Stopping Distance Time and Braking Efficiency, Effect
of Weight Transfer during Braking, Theory of Drum Brakes, Loading and Trailing
Shoes, Braking Torque, Constructional Details of Drum Brake and its Activators, Disc
Brake Theory, Types and Construction, Hydraulic Braking System, Mechanical Braking
System, Pneumatic Braking System, Power–Assisted Braking System, Servo Brakes,
Retarders, Types and Construction, Anti–Lock Braking System, Constructional Details.
TOTAL 45hrs
TEXT BOOKS
1. Kripal Singh, “Automobile Engineering”
2. R.K. Rajput, “A Text–Book of Automobile Engineering”, Laxmi Publications Private
Limited
3. N.K. Giri, “Automotive Mechanics” Khanna Publishers, New Delhi, 2005.
REFERENCES
1. Heldt P.M., “Automotive Chassis” Chilton Co., New York.
2. Newton Steeds and Garret, “Motor Vehicles” 13th Edition,Butterworth, London,
2005.
3. Heinz Hazler, “Modern Vehicle Technology”, Butterworth, London, 2005.
Chairman
Board of Studies
AUE106 AUTOMOTIVE ENGINES
3003
OBJECTIVE:
•
Study of the Constructional details of automotive engines.
•
Study of working of petrol engines and diesel engines.
1. INTRODUCTION: Classification and components of an engine, Principle and
working of four stoke and two stroke SI and CI engine. Comparison of theoretical and
actual cycles and their analysis. Multi fuel engine, Sterling cycle engine, Wankel engine,
stratified charge engine and lean burn engine. Hybrid electric vehicles. Valve actuating
mechanisms, drive mechanisms.
11hrs
2. FUEL FEED SYSTEMS: Carburetor, Air/Fuel mixture proportions, cold start, idle,
normal running, acceleration and transfer circuits. Diesel fuel injection pump,
construction and working principles. Governing systems, types of fuel injectors and
nozzles. Introduction to electronic fuel injection system.
9hrs
3. COMBUSTION AND COMBUSTION CHAMBERS: Petrol engines - Ignition
limits, stages of combustion, effect of engine variables, knocking and detonation theory, parameters affecting and control, combustion chamber - different types and
design. Diesel engines – Air/Fuel Ratio, stages of combustion, knocking and detonation theory, parameters affecting and control, combustion chamber - different types.
9hrs
4. COOLING AND LUBRICATION SYSTEMS: Engine heat transfer, engine energy
balance, necessity of cooling, air cooling, water cooling, thermosyphon and pump
cooling, radiator, pump, thermostat, antifreeze solution, radiator fan. Lubrication
Systems – Mist, splash, forced, dry sump and wet sump, oil filters, oil pumps.
7hrs
5. SUPERCHARGING AND TURBOCHARGING: Necessity of supercharging,
mechanical supercharging and turbo charging, compressors and turbines for
supercharging, degree of supercharging, methods of supercharging, efficiency of
supercharged engine.
ENGINE TESTING: Testing and performance characteristics of an engine.
9hrs
TOTAL 45hrs
Chairman
Board of Studies
TEXT BOOKS:
1. Heinz Heisler, “Advanced Engine Technology”, SAE 1995.
2. Ganesan V , “Internal Combustion Engines”, Tata McGraw Hill, New Delhi, 2003.
REFERENCES:
1. Robert Bosch “Automotive Hand book”, 5th edition, 2004.
2. Richard Stone, “Introduction to IC Engines”, 2nd edition, Macmilan,1992.
3. W H & Anglin D L, “Automotive Mechanics”, Tata McGraw Hill Publishing
Company, 2004.
4. Obert E F, “Internal Combustion Engine analysis and Practice ", International Text
Book Co., Scranton, Pennsylvania, 1988.
5. John B Heywood, “Internal Combustion Engine Fundamentals”, McGraw Hill
International Editions, 1988.
6. Mathur L and Sharma R P, “Internal Combustion Engines”, Dhanpat Rai Publications
(P), Ltd, 8th edition, New Delhi, 2002.
7. Patent No. 20080006251, Internal combustion engine including a gas pressure
container assigned to the cylinders, and method for operating the engine.
8. Patent No. 20080010987, Method of operating an internal combustion engine in the
engine braking mode.
9. Patent No. 20070283694, Method for controlling a supercharged engine, particularly
an indirect injection engine, and engine using such a method.
10. Patent No. 20070265763, Air-fuel ratio control system and method for internal
combustion engine, and engine control unit.
Chairman
Board of Studies
MEC405 STRENGTH OF MATERIALS AND METALLURGY LAB
0031
OBJECTIVES
•
To study and analyze the microstructure of various materials
•
To study and test the hardness and wear resistance of materials
LIST OF EXPERIMENTS
STRENGTH OF MATERIALS LAB
1. Tension test on a mild steel rod
2. Torsion test on mild steel rod
3. Hardness test on metals - Brinell and Rockwell Hardness
4. Deflection test on beams
5. Compression test on helical springs
6. Impact Test.
METALLURGY LAB
1. Micro structure study on
(i) Ferrous Materials
(ii) Non Ferrous Materials
2. Heat Treatment - Comparison of
(i) Unhardened specimens
(ii) Quenched Specimens
(iii) Quenched and tempered specimens
3. Heat Treatment - Comparison of
(i) Un hardened
(ii) Hardened specimens
4. Microstructure examination of
(i) Hardened samples
(ii) Hardened and tempered samples.
Total: 45hrs
Chairman
Board of Studies
AUE 403 ELECTRICAL AND ELECTRONICS ENGINEERING LABORATORY
0031
LIST OF EXPERIMENTS
1.
Verification of Ohm’s law and Kirchhoff’s laws.
2.
Load test on DC shunt and compound motor.
3.
Load test on DC series motor.
4.
Load test on induction motor (single-phase & three-phase)
5.
Load test of servo and stepper motor.
6.
Study of half wave and full wave rectifiers.
7.
RC coupled transistor amplifier.
8.
Applications of operational amplifier.
9.
Study of logic gates and implementation of Boolean functions.
10.
Implementation of binary adder/ subtractor.
REFERENCE:
1.
Laboratory Manual prepared by Department of Electrical and Electronics
Engineering, 2008.
Chairman
Board of Studies
AUE 404 COMPUTER GRAPHICS & SOLID MODELING LABORATORY
0031
OBJECTIVES
•
To learn the wire frame, surface and soil modeling techniques using CAD
Software.
•
To model and study the machine elements using CAD Software.
LIST OF EXPERIMENTS
1. 3D Part modeling – protrusion, cut, sweep, draft, loft, blend, rib
2. Editing – Move, Pattern, Mirror, Round, Chamfer
3. Assembly – creating assembly from parts – assembly constraints
4. Conversion of 3D solid model to 2D drawing – different views, sections,
isometric view and dimensioning
5. Introduction to Surface Modeling
6. 3D Modeling of machine elements likes universal coupling, piston connecting
rod assembly, Plummer block, screw jack, etc.
Chairman
Board of Studies
GHE 104 HUMAN EXCELLENCE – PROFESSIONAL VALUES
0021
(Common to IV Semester all Branches)
1. Personality –Concepts, definitions -5 C’s and 5 E’s – Self development – Leadership
Traits –IQ,EQ,SQ.
2. Time management-Practice –Cause and Effect –Professional Ethics –Values.
3. Quality Enhancement – Empowerment of mind – Passion for Excellence –Auto
suggestions – Self control.
4. Simplified physical exercises.
5. Yoga Mudra.
6. Pachi Motasana.
7. Ustrasana.
8. Vakkarasana.
9. Salapasana.
10. Meditation
Chairman
Board of Studies
SEMESTER V
Chairman
Board of Studies
AUE 107- MACHINE COMPONENTS DESIGN
L
3
T
1
P
0
C
4
AIM:
This course gives a complete procedure for designing different kinds of problems
occurring in design engineering field especially in automobile engineering.
OBJECTIVES
• To familiarize the various steps involved in the Design Process
• To understand the principles involved in evaluating the shape and dimensions of
a component to satisfy functional and strength requirements.
• To learn to use standard practices and standard data
• To learn to use catalogues and standard machine components
UNIT –I
INTRODUCTION
10hrs
Classification of design - Engineering materials and their physical properties as applied
to design - Selection of materials - Factors of safety in design – Endurance limit of
materials - Determination of endurance limit for ductile materials
Static Load-Modes of Failure-FOS-Stress concentration-Fluctuation stress-Fatigue
failure-Endurance limit-Notch sensitivity-finite and infinite life-Gerber theory-Soderberg
line-Goodman line.
UNIT –II
DESIGN OF SHAFTS AND SPRINGS
9 hrs
Introduction - Material and design stresses - Design of axles - Design of shafts on the
basis of strength - Design of shaft on the basis of rigidity - Design of hollow shafts Design of close coiled helical spring subjected to axial loading - Torsion of helical
springs.
UNIT –III GEAR DESIGN
9 hrs
Design considerations - strength of gear teeth - Lewis equation - Terminology of gears
Dynamic tooth load - Design of spur gears - helical gears - bevel gears and worm gears.
UNIT –IV FLYWHEELS
8 hrs
Determination of the mass of a flywheel for a given co-efficient of speed fluctuation.
Engine flywheels stresses of rim of flywheels. Design of hubs and arms of flywheel Turning moment diagram.
UNIT –V
DESIGN OF BEARINGS
9 hrs
Design of journal bearings - Ball and Roller bearings - Types of Roller bearings Bearing life - Static load capacity - Dynamic load capacity - Bearing material - Boundary
lubrication - Oil flow and temperature rise.
L: 45 T: 15
Total 60 Hrs
Text Book
1. Jain,R.K., "Machine Design", Khanna Publishers, 1992.
2. Sundararaja Murthy, T.V., "Machine Design", Khanna Publishers, New Delhi,
1991.
3. Bhandari,v.B., "Design of Machine Elements", Tata McGraw Hill Publishing Co.
Ltd., New Delhi, 1990.
Reference book
1. Hall Allen,S. & other, “Machine Design” , Schaum publisher Co., 1982.
2. Sigley, “Machine Design”, McGraw Hill,1981.
3. “Design Data Book “, PSG College of Technology, Coimbatore,1992
Chairman
Board of Studies
AUE108-TWO AND THREE WHEELER TECHNOLOGY
L
3
T
0
P
0
C
3
OBJECTIVES
The aim of this course is to make the students to know and understand the constructional
details operating characteristics and vehicle design aspects
UNIT –I
THE POWER UNIT
9 hrs
Two stroke and four stroke SI engine, merits and demerits, Symmetrical and
unsymmetrical port timing diagrams. Types of scavenging processes, merits and
demerits, scavenging efficiency. Scavenging pumps. Rotary valve engine. Fuel system.
Lubrication system. Magneto coil and battery coil spark ignition system. Electronic
ignition System. Starting system. Kick starter system.
UNIT –II
CHASSIS AND SUB-SYSTEMS
8 hrs
Main frame, its types. Chassis and shaft drive. Single, multiple plates and centrifugal
clutches. Gear box and gear controls. Front and rear suspension systems. Shock
absorbers. Panel meters and controls on handle bar.
UNIT –III BRAKES AND WHEELS
8 hrs
Drum brakes, Disc brakes, Front and rear brake links lay-outs. Spoked wheel, cast wheel.
Disc wheel. Disc types. Tyres and tubes.
UNIT –IV TWO WHEELERS
10hrs
Case study of motor cycles, scooters and mopeds. Servicing and maintenance.
UNIT –V
THREE WHEELERS
10hrs
Case study of Auto rickshaws, Pick up van, Delivery van and Trailer. Servicing and
maintenance.
L: 45 T: 0
Total 45 Hrs
Text Book
1. Irving,P.E., Motor cycle Engineering, Temple Press Book, London, 1992
Reference book
1. The Cycle Motor Manual, Temple Press Ltd., London, 1990.
2. Encyclopedia of Motor cycling, 20 volumes, Marshall Cavensih, New York
andLondon, 1989.
3. Bryaut,R.V., Vespa Maintenance and Repair series.
4. Raymond Broad, Lambretta – A practical guide to maintenance and repair, 1987.
Chairman
Board of Studies
AUE109-AUTOMOTIVE ELECTRICAL AND ELECTRONICS
L
3
T
0
P
0
C
3
OBJECTIVES
To impart knowledge to the students in the principles of operation and constructional
details of various Automotive Electrical and Electronic Systems like Batteries, Starting
System, Charging System, Ignition System, Lighting System and Dash –Board
Instruments.
UNIT –I
TYPES OF BATTERIES
9 hrs
Principle and construction of Lead Acid Battery, Nickel – Cadmium Battery, Nickel
Metal, Hybrid Battery, Sodium Sulphur Battery and Aluminum Air Battery,
Characteristics of Battery, Battery Rating, Capacity and Efficiency, Various Tests on
Battery, Battery– Charging Techniques, .Maintenance of batteries.
UNIT –II
ELECTRICAL COMPONENTS
9 hrs
Requirements of Starter Motor, Starter Motor types , construction and characteristics,
Starter drive mechanisms, Starter Switches and Solenoids, Charging system components,
Generators and Alternators ,types, construction and Characteristics . Voltage and Current
Regulation, Cut –out relays and regulators, Charging circuits for D.C. Generator, A.C.
Single Phase and Three – Phase Alternators.
UNIT –III IGNITION SYSTEMS
9 hrs
Battery Coil and Magneto–Ignition System, Circuit details and Components of Battery
Coil and Magneto–Ignition System, Centrifugal and Vacuum Advance Mechanisms,
Spark Plugs, Constructional details and Types.
UNIT –IV ELECTRICAL AND ELECTRONIC IGNITION SYSYTEMS 9hrs
Electronically–Assisted and Full Electronic Ignition System, Non–Contact–type Ignition
Triggering devices, Capacitive Discharge Ignition Distributor–less Ignition System,
Digital Ignition System, Control Strategy of Electronic Ignition System.
UNIT –V
WIRING, LIGHTING AND OTHER INSTRUMENTS AND
9hrs
SENSORS
Automotive Wiring, Insulated and Earth Return System, Positive and Negative Earth
Systems, Head Lamp and Indicator Lamp Details, Anti–Dazzling and Dipper Details,
Electrical and Electronic Fuel Lift Pumps, Theory and Constructional Details of Dash
Board Instruments and their Sensors like Speedometer, Odometer, Fuel Level Indicator
Oil Pressure and Coolant Temperature Indicators, Horns and Wiper Mechanisms,
Automotive Wiring Circuits.
L: 45 T: 0
Total 45 Hrs
Text Book
1. Young, A.P. and Griffith, S.L., Automobile Electrical Equipments, ELBS and
New Press.
2. Kholi .P.L.Automotive Electrical Equipment,Tata McGraw-Hill co ltd,New
Delhi,2004
Reference book
1. Crouse.W.H. Automobile Electrical Equi\pment,McGraw Hill Book
CoInc.NewYork,2005
2. Judge.A.W.Modern Electrical Equipments of Automobiles,Chapman & Hall,
London 2004 .
3. Robert Bosch, Automotive Handbook, Bently Publishers,2004
Chairman
Board of Studies
AUE 110-FUELS & LUBRICANTS
L
3
T
0
P
0
C
3
OBJECTIVES
To understand the source of automotive fuels and lubricants, their basic properties,
determination of air requirement for the combustion of fuels and basic theory of
lubrication.
UNIT –I
MANUFACTURE OF FUELS AND LUBRICANTS
9 hrs
Fuels, Structure of petroleum, refining process, thermal and catalytic cracking, products
of refining process, manufacture of lubricating oil base stocks and finished automotive
lubricants.
UNIT –II
FUELS FOR I.C. ENGINES
9 hrs
Types of Fuels, Liquid and gaseous fuels, heating value of fuels, higher and lower
heating values, chemical structure of hydro-carbons SI Engine fuels, Volatility
characteristics, desirable characteristics of SI Engine fuels, knock rating and additives,
alternate fuels for SI engines. CI engine fuels, desirable characteristics, cetane rating,
alternate fuels for CI engines, biodiesels.
UNIT –III COMBUSTION OF FUELS
9 hrs
Stoichiometry - calculation of theoretically correct air required for combustion of liquid
and gaseous fuels, volumetric and gravimetric analysis of the dry products of
combustion, mass of dry gas per kg of fuel burnt, mass of carbon in the exhaust gas,
mass of carbon burnt to carbon-monoxide per kg of fuel, heat loss due to incomplete
combustion, exhaust gas analysis by Orsat apparatus.
UNIT –IV THEORY OF LUBRICATION
9 hrs
Engine friction: introduction, total engine friction, effect of engine variables on friction,
hydrodynamic lubrication, elasto hydrodynamic lubrication, boundary lubrication,
Hydrostatic lubrication bearing lubrication, functions of the lubrication system.
UNIT –V
LUBRICANTS
9 hrs
Specific requirements for automotive lubricants, oxidation deterioration and degradation
of lubricants, additives and additive mechanism, synthetic lubricants, classification of
lubricating oils, properties of lubricating oils, tests on lubricants. Grease, classification,
properties, testing of grease.
L: 45 T: 0
Total 45 Hrs
Text Book
1. V.Ganesan, “Internal Combustion Engines” Tata McGraw-Hill Publishing Co.
Newdelhi
2. M.L.Mathur and P.Sharma “A course in internal combustion engines”,
Dhanpatrai Publications
Reference book
1. Brame, J.S.S. and King, J.G. – Fuels – Solids, Liquids, Gaseous.
2. Francis, W – Fuels and Fuel Technology, Vol. I & II
3. Hobson, G.D. & Pohl.W- Modern Petroleum Technology
4. A.R.Lansdown – Lubrication – A practical guide to lubricant selection –
Pergamon press – 1982.
5. Raymond.C.Gunther – Lubrication – Chilton Book Co., - 1971. .
Chairman
Board of Studies
AUE 111- FINITE ELEMENT ANALYSIS
L
3
T
1
P
0
C
4
OBJECTIVES
• To understand the principles involved in discretization and finite element
approach
• To learn to form stiffness matrices and force vectors for simple elements
UNIT –I
INTRODUCTION
8 hrs
Historical background – Relevance of FEA to design problems, Application to the
continuum –
Discretisation – Matrix approach, Matrix algebra – Gaussian elimination – Governing
equations
for continuum – Classical Techniques in FEM – Weighted residual method – Ritz
method,
Galerkin method
UNIT –II
ONE DIMENSIONAL PROBLEMS
12hrs
Finite element modeling – Coordinates and shape functions – Potential energy approach–
Element matrices and vectors – Assembly for global equations – Boundary conditions –
Higher
order elements - Shapes functions – Applications to axial loadings of rods – Extension to
plane
trusses – Bending of beams – Finite element formulation of stiffness matrix and load
vectors –
Assembly to Global equations –boundary conditions – Solutions and Post processing Example
Problems.
UNIT –III TWO DIMENSIONAL PROBLEMS – SCALAR VARIABLE 6 hrs
PROBLEMS
Finite element modeling – CST element – Element equations, Load vectors and
boundary conditions – Assembly – Application to heat transfer - Examples
UNIT –IV TWO DIMENSIONAL PROBLEMS – VECTOR VARIABLE 10hrs
PROBLEMS
Vector Variable problems – Elasticity equations – Plane Stress, Plane Strain and
Axisymmetric problems – Formulation – element matrices – Assembly – boundary
conditions and solutions Examples
UNIT –V
ISOPARAMETRIC ELEMENTS FOR TWO
9 hrs
DIMENSIONAL PROBLEMS
Natural coordinates, Iso parametric elements, Four node quadrilateral element– Shape
functions – Element stiffness matrix and force vector – Numerical integration – Stiffness
integration – Displacement and Stress calculations – Examples.
L: 45 T: 15
Total 60 Hrs
Text Book
1. Chandrupatla T.R., and Belegundu A.D., “Introduction to Finite Elements in
Engineering”,Pearson Education 2002, 3rd Edition.
2. Logan D.L., “A First course in the Finite Element Method”, Third Edition,
Thomson Learning, 2002
Reference book
1. Rao S.S., “The Finite Element Method in Engineering”, Pergammon Press, 1989.
2. David V.Hutton,”Fundamentals of Finite Element Analysis”, Tata McGraw-Hill
Edition 2005. ISBN-0-07-239536-2
Chairman
Board of Studies
CHY107
ENVIRONMENTAL SCIENCE AND
ENGINEERING
L
3
T
0
P
0
C
3
OBJECTIVES
At the end of this course the student is expected to understand what constitutes the
environment, what are precious resources in the environment, how to conserve these
resources, what is the role of a human being in maintaining a clean environment and
useful environment for the future generations and how to maintain ecological balance
and preserve bio-diversity.
UNIT –I
INTRODUCTION TO ENVIRONMENTAL STUDIES
10hrs
AND NATURAL RESOURCES
Tool Definition, scope and importance – Need for public awareness – Forest resources:
Use and over-exploitation, deforestation, case studies. Timber extraction, mining,
dams and their effects on forests and tribal people – Water resources: Use and overutilization of surface and ground water, floods, drought, conflicts over water, damsbenefits and problems – Mineral resources: Use and exploitation, environmental
effects of extracting and using mineral resources, case studies – Food resources: World
food problems, changes caused by agriculture and overgrazing, effects of modern
agriculture, fertilizer pesticide problems, water logging, salinity, case studies – Energy
resources: Growing energy needs, renewable and non renewable energy sources, use of
alternate energy sources. Case studies – Land resources: Land as a resource, land
degradation, man induced landslides, soil erosion and desertification – Role of an
individual in conservation of natural resources – Equitable use of resources for
sustainable lifestyles.
UNIT –II
ECOSYSTEMS AND BIODIVERSITY
14hrs
Concept of an ecosystem – Structure and function of an ecosystem – Producers,
consumers and decomposers – Energy flow in the ecosystem – Ecological succession –
Food chains, food webs and ecological pyramids – Introduction, types, characteristic
features, structure and function of the (a) Forest ecosystem (b) Grassland ecosystem
(c) Desert ecosystem (d) Aquatic ecosystems (ponds, streams, lakes, rivers, oceans,
estuaries) – Introduction to Biodiversity – Definition: genetic, species and ecosystem
diversity – Biogeographical classification of India – Value of biodiversity:
consumptive use, productive use, social, ethical, aesthetic and option values –
Biodiversity at global, National and local levels – India as a mega-diversity nation –
Hot-spots of biodiversity – Threats to biodiversity: habitat loss, poaching of wildlife,
man-wildlife conflicts – Endangered and endemic species of India – Conservation of
biodiversity: In-situ and Exsitu conservation of biodiversity.
UNIT –III ENVIRONMENTAL POLLUTION
8 hrs
Definition – Causes, effects and control measures of: (a) Air pollution (b) Water
pollution (c) Soil pollution (d) Marine pollution (e) Noise pollution (f) Thermal
pollution (g) Nuclear hazards – Soil waste Management: Causes, effects and control
measures of urban and industrial wastes – Role of an individual in prevention of
pollution – Pollution case studies – Disaster management: floods, earthquake, cyclone
and landslides.
UNIT –IV SOCIAL ISSUES AND THE ENVIRONMENT
7hrs
From Unsustainable to Sustainable development – Urban problems related to energy –
Water conservation, rain water harvesting, watershed management – Resettlement and
Chairman
Board of Studies
rehabilitation of people; its problems and concerns, case studies – Environmental
ethics: Issues and possible solutions – Climate change, global warming, acid rain,
ozone layer depletion, nuclear accidents and holocaust, case studies. – Wasteland
reclamation – Consumerism and waste products – Environment Production Act – Air
(Prevention and Control of Pollution) Act – Water (Prevention and control of
Pollution) Act – Wildlife Protection Act – Forest Conservation Act – Issues involved
in enforcement of environmental legislation – Public awareness
UNIT –V
HUMAN POPULATION AND THE ENVIRONMENT
6hrs
Population growth, variation among nations – Population explosion – Family Welfare
Programme – Environment and human health – Human Rights – Value Education –
HIV/ AIDS – Women and Child Welfare – Role of Information Technology in
Environment and human health – Case studies.
Field Work
Visit to local area to document environmental assets- river / grassland / hill / mountain,
visit to local polluted site- urban / rural / industrial / agricultural, study of common
plants, insects, birds, study of simple ecosystems-pond, river, hill slopes etc.,
L: 45 T: 0
Total 45 Hrs
Text Book
1. Deswal.S and Deswal.A, “ A basic course in Environmental studies”
Dhanpat Rai &Co, 2006.
2. Gilbert M.Masters, Introduction to Environmental Engineering and Science,
Pearson Education Pvt., Ltd., Second Edition, ISBN 81-297-0277-0, 2004.
3. Miller T.G. Jr., Environmental Science – Sustaining the earth, Wadsworth
Publishing Co., 1993
References
1. Bharucha Erach, the Biodiversity of India, Mapin Publishing Pvt. Ltd.,
Ahmedabad India., 2002
2. Trivedi R.K., Handbook of Environmental Laws, Rules, Guidelines,
Compliances and Standards, Vol. I and II, Enviro Media. 1996
3. Cunningham, W.P.Cooper, T.H.Gorhani, Environmental Encyclopedia, Jaico
Publ., House, Mumbai, 2001.
4. Wager K.D., Environmental Management, W.B. Saunders Co., Philadelphia,
USA, 1998.
5. Townsend C., Harper J and Michael Begon, “Essentials of Ecology”,
Blackwell
Science Publishing Co., 2003
6. Trivedi R.K and P.K.Goel “Introduction to Air pollution” Techno-science
Pubications. 2003
7. Yamuna R.T “Environmental Science” Inter Publications, 2008
Chairman
Board of Studies
AUE 405 FUELS & LUBRICANTS LABORATORY
L
0
T
0
P
3
C
1
LIST OF EXPERIMENTS
1. Study of International and National standards for fuels and lubricants.
2. Study of Octane and Cetane Number of fuels.
3. Testing of fuels - Ultimate analysis, proximate analysis
4. ASTM distillation test of liquid fuels
5. Aniline Point test of diesel
6. Calorific value of liquid fuel.
7. Calorific value of gaseous fuel.
8. Reid vapour pressure test.
9. Flash and Fire points of petrol and diesel.
10. Copper strip Corrosion Test
11. Cloud & Pour point Test.
12. Temperature dependence of viscosity of lubricants & Fuels by Redwood
Viscometer.
13. Viscosity Index of lubricants & Fuels by Saybolt Viscometer
14. Ash content and Carbon Residue Test
15. Drop point of grease and mechanical penetration in grease.
Total : 45 Hrs
Chairman
Board of Studies
AUE 406 AUTOMOTIVE ELECTRICAL & ELECTRONICS
LAB
LIST OF EXPERIMENTS
AUTOMOTIVE ELECTRICAL LABORATORY
L
0
T
0
P
3
C
1
1. Testing of batteries and battery maintenance
2. Testing of starting motors and generators
3. Testing of regulators and cut – outs
4. Diagnosis of ignition system faults
5. Study of Automobile electrical wiring
AUTOMOTIVE ELECTRONICS LABORATORY
1. Study of rectifiers and filters
2. Study of logic gates, adder and flip-flops
3. Study of SCR and IC timer
4. Interfacing Sensors like RTD, LVDT, Load Cell etc.
5. Interfacing ADC for Data Acquisition
6. Interfacing DAC for Control Application
7. Interfacing A/D converter and simple data acquisition
8. Micro Processor programming and interfacing
Total : 45 Hrs
Chairman
Board of Studies
AUE 407 AUTOMOTIVE CHASSIS AND ENGINE
COMPONENTS LABORATORY
L
0
T
0
P
3
C
1
LIST OF EXPERIMENTS
AUTOMOTIVE CHASSIS LABORATORY
Study and measurement of the following chassis frames
1. Heavy duty vehicle frame
2. Light duty vehicle frame
Study, dismantling and assembling of
3. Front Axle
4. Rear Axle
5. Differential
6. Steering systems along with any two types of steering gear box
7. Braking systems – hydraulic servo vacuum, compressed air power brakes.
Study, Dismantling and Assembling of
8. Clutch assembly of different types
9. Gear Box
ENGINE COMPONENTS AND ASSEMBLY LABORATORY
1. Dismantling of 4 cylinder petrol engine.
2. Assembling of 4 cylinder petrol engine.
3. Dismantling of 6 cylinder diesel engine.
4. Assembling of 6 cylinder diesel engine.
5. Study of oil filter, fuel filter, fuel injection system, carburetor, MPFI
6. Study of ignition system components – coil, magneto and electronic ignition
systems.
7. Study of engine cooling system components
8. Study of engine lubrication system components
9. Ovality and taper measurement of cylinder bore and comparison with standard
specifications
10. Ovality and taper measurement of engine crank shaft and comparison with
standard specification
Total : 45 Hrs
Chairman
Board of Studies
AUE 408- AUTOMOTIVE DESIGN AND ANALYSIS
LABORATORY
L
0
T
0
P
3
C
1
LIST OF EXPERIMENTS
1. Study of different commercial FEA tools used for design and analysis
2. Stress analysis of Crankshaft
3. Stress analysis of a plate with circular plate
4. Stress analysis of a rectangular L Bracket
5. Thermal analysis of cylinder liners
6. Stress analysis of leaf spring
7. Design and analysis of torsion bar
8. Stress analysis of composite body panels
9. Design and analysis of piston crown
10. Design and analysis of chassis frames
Total : 45 Hrs
Chairman
Board of Studies
GHE-105
HUMAN EXCELLENCE- SOCIAL VALUES
0021
(Common to V Semester all Branches)
1. Evolution of man – Man in society.
2. Duties and Responsibilities, Duty to self, family, society and the world.
3. Disparity among human beings.
4. Social welfare – Need for social welfare – Pure mind for pure society.
5. Politics and society – Education and society-Case study and live
examples.
6. Impact of science in society - social development & society upliftments
by science.
7. Economics & society – role of economics in creating a modern society.
8. Central message of Religions.
9. Yogasanas-I
10. Meditation-II.[Thuriatheetham]
Chairman
Board of Studies
SEMESTER VI
Chairman
Board of Studies
AUE112- CHASSIS DESIGN
L
3
T
1
P
0
C
4
OBJECTIVES
At the end of the course the student will be able to understand the fundamental principles
involved in design of components of automotive chassis, the complete design exercise
and arrive at important dimensions of chassis components.
UNIT –I
VEHICLE FRAME AND SUSPENSION
9 hrs
Study of loads-moments and stresses on frame members. Design Of frame for passenger
and commercial vehicle - Design of leaf Springs-Coil springs and torsion bar springs.
UNIT –II
FRONT AXLE AND STEERING SYSTEMS
9 hrs
Analysis of loads-moments and stresses at different sections of front axle. Determination
of bearing loads at Kingpin bearings. Wheel spindle bearings. Choice of Bearings.
Determination of optimum dimensions and proportions for steering linkages, ensuring
minimum error in steering. Design of front axle beam.
UNIT –III CLUTCH
9 hrs
Design of single plate clutch, multiplate clutch and cone clutch. Torque capacity of
clutch. Design of clutch components, Design details of roller and sprag type of clutches.
UNIT –IV GEAR BOX
9 hrs
Gear train calculations, layout of gearboxes. Calculation of bearing loads and selection of
bearings. Design of three speed and four speed gearboxes.
UNIT –V
DRIVE LINE AND REAR AXLE
9 hrs
Design of propeller shaft. Design details of final drive gearing. Design details of full
floating, semi-floating and three quarter floating rear shafts and rear axle housings and
design aspects of final drive.
L: 45 T: 15
Total 60 Hrs
Text Book
1. Giri, N.K., Automobile Mechanics, Khanna publishers, New Delhi, 2007.
2. Khurmi. R.S. & Gupta. J.K., A textbook of Machine Design, Eurasia
Publishing House (Pvt) Ltd, 2001.
Reference book
1. Heldt, P.M., Automotive Chassis, Chilton Book Co., 1992.
2. Dean Averns, Automobile Chassis Design, Illife Book Co., 2001.
Chairman
Board of Studies
AUE 113-AUTOMOTIVE TRANSMISSION
L
3
T
0
P
0
C
3
OBJECTIVES
The main objective of this course is to impart knowledge in automotive transmission.
The detailed concept, construction and principle of operation of various types of
mechanical transmission components, hydrodynamic devices, hydrostatic devices and
automatic transmission system will be taught to the students. The design of clutch and
gearbox will all so be introduce to the students. At the end of the course the students will
have command over automotive transmission concepts and application
UNIT –I
CLUTCH AND GEAR BOX
9 hrs
Problems on performance of automobile - such as resistance to motion, tractive effort,
engine speed, engine power and acceleration. Requirement of transmission system.
Different types of clutches, principle, Construction and torque capacity. Determination of
gear ratios for vehicles. Different types of gearboxes such as Sliding mesh gearbox,
Constant mesh gearbox and Synchromesh gearbox.
UNIT –II
HYDRODYNAMIC DRIVE
9 hrs
Fluid coupling - Principle of operation, Constructional details, Torque capacity,
Performance characteristics and Reduction of drag torque. Hydrodynamic Torque
converter - Principle of operation, Constructional details and Performance
characteristics. Multistage torque converters. Polyphase torque converters. Converter
coupling
UNIT –III PLANETARY GEAR BOXES
9 hrs
Construction and operation of Ford – T-model gearbox, Wilson Gear box and Cotal
electromagnetic transmission.
UNIT –IV AUTOMATIC TRANSMISSION APPLICATIONS
9 hrs
Need for automatic transmission, Principle of operation. Hydraulic control system for
automatic transmission. Chevrolet “Turboglide” Transmission, Continuously Variable
Transmission (CVT) – Types – Operations.
UNIT –V
HYDROSTATIC AND ELECTRIC DRIVE
9 hrs
Hydrostatic drive - Various types of hydrostatic systems, Principles of Hydrostatic drive
system. Advantages and limitations. Comparison of hydrostatic drive with hydrodynamic
drive, Construction and Working of typical Janny hydrostatic drive. Electric drive Principle of operation of Early and Modified Ward Leonard Control system, Advantages
& limitations.
L: 45 T: 0
Total 45 Hrs
Text Book
1. Heldt P.M – “Torque Converters”- Chilton Book Co.-1992
2. Judge, A.W., Modern Transmission systems, Chapman and Hall Ltd., 1990.
3. Newton and Steeds – “Motor Vehicle”- Illiffee Publisher- 2000.
Reference book
1. Design Practices, passenger Car Automotive Transmissions- SAE Hand book1994.
2. Crouse, W.H., Anglin, D.L., Automotive Transmission and Power Trains
construction, McGraw Hill, 1992.
3. Heldt, P.M., Torque converters, Chilton Book Co., 1992.
Chairman
Board of Studies
AUE 114-ENGINE DESIGN
L
3
T
1
P
0
C
4
OBJECTIVES
To make the students understand the design concept and principles of various engine
components. These concepts and principles are familiarized for design of components.
Note: (Use of P S G Design Data Book is permitted in the University examination)
UNIT –I
INTRODUCTION
9 hrs
Determination of engine power, Engine selection, swept volume, stroke, bore & no. of
cylinders, Arrangement of cylinders stroke to bore ratio. Design procedure of theoretical
analysis, Design considerations
UNIT –II
DESIGN OF CYLINDER, PISTON AND CONNECTING
9 hrs
ROD
Choice of material for cylinder and piston, design of cylinder, piston, piston pin, piston
rings, piston failures, lubrication of piston assembly. Material for connecting rod,
determining minimum length of connecting rod, small end design, shank design, design
of big end cap bolts.
UNIT –III DESIGN OF CRANKSHAFT
9 hrs
Balancing of I.C. engines, significance of firing order. Material for crankshaft, design of
crankshaft under bending and twisting, balancing weight calculations, development of
short and long crank arms. Front and rear-end details.
UNIT –IV DESIGN OF COOLING AND LUBRICATION SYSTEM
9 hrs
Principles of conductive, convective radiation heat transfer – basics of cooling system –
Types of engine cooling systems and their places of usage - components design.
Tribological characteristics of engine - fundamentals of lubrication system – Types of
engine lubricating systems – Dry sump lubrication and applications - component design.
UNIT –V
DESIGN OF VALVES AND VALVE TRAIN
9 hrs
Design aspects of intake & exhaust manifolds, inlet & exhaust valves, valve springs,
tappets and valve train. Design of cam & camshaft. Design of rocker arm. Cam profile
generation.
L: 45 T: 15
Total 60 Hrs
Text Book
1. Engine Design – Giles J. G., Lliffe Book Ltd.
2. Engine Design – Crouse, Tata McGraw Publication, Delhi
3. Khurmi. R.S. & Gupta. J.K., A textbook of Machine Design, Eurasia
Publishing House (Pvt) Ltd, 2001.
Reference book
1. Jain.R.K, “Machine Design”, Khanna Publishers, New Delhi, 2005.
2. I. C. Engine & Air Pollution – E. F. Obert, Harper & Row Publishers, New
York
3. Giri.N.K, Automobile Mechanics, Khanna Publishers, New Delhi, 2007.
4. I.C. Engine by Maleev V. L., McGraw Hill Book, Co.
5. I.C. Engine – Litchy
6. SAE Handbooks
Chairman
Board of Studies
AUE 115-AUTOMOTIVE POLLUTION AND CONTROL
L
3
T
0
P
0
C
3
OBJECTIVES
To make the students to realize the impact of automobile emissions on the environment
and expose student to factors affecting the formation and control of automobile
pollutants.
UNIT –I
INTRODUCTION
9 hrs
Vehicle population assessment in metropolitan cities and contribution to pollution,
effects on human health and environment, global warming, types of emission, transient
operational effects on pollution.
UNIT –II
POLLUTANT FORMATION IN SI ENGINES
9 hrs
Pollutant formation in SI Engines, mechanism of HC and CO formation in four stroke
and two stroke SI engines, NOx formation in SI engines, effects of design and operating
variables on emission formation, control of evaporative emission. Two stroke engine
pollution.
UNIT –III POLLUTANT FORMATION IN CI ENGINES
9 hrs
Pollutant formation in CI engines, smoke and particulate emissions in CI engines, effects
of design and operating variables on CI engine emissions. Nox formation and control.
Color and Aldehyde emissions Noise pollution from automobiles, measurement and
standards.
UNIT –IV CONTROL OF EMISSIONS FROM SI AND CI ENGINES
9 hrs
Design of engine, optimum selection of operating variables for control of emissions,
EGR, Air injector PCV system, Thermal reactors, secondary air injection, catalytic
converters, catalysts, fuel modifications, fuel cells, Two stroke engine pollution control.
UNIT –V
MEASUREMENT TECHNIQUES EMISSION STANDARDS 9 hrs
AND
TEST PROCEDURE
NDIR, FID, Chemiluminescent analyzers, Gas Chromatograph, smoke meters, emission
standards, driving cycles – USA, Japan, Euro and India. Test procedures – ECE, FTP
Tests. SHED Test – chassis dynamometers, dilution tunnels.
L: 45 T: 0
Total 45 Hrs
Text Book
1. Paul Degobert – Automobiles and Pollution – SAE International ISBN156091-563-3, 1991.
2. Ganesan, V- “Internal Combustion Engines”- Tata McGraw-Hill Co.- 2003.
3. Springer and Patterson, Engine Emission, Plenum Press, 1990.
Reference book
1. SAE Transactions- “Vehicle Emission”- 1982 (3 volumes).
2. Obert.E.F.- “Internal Combustion Engines”- 1988
3. Marco Nute- “ Emissions from two stroke engines, SAE Publication – 1998
Chairman
Board of Studies
AUE116-AUTOMOTIVE ADVANCED SYSTEMS
L
3
T
0
P
0
C
3
OBJECTIVES
To understand the electronic advancements achieved in the field of automobile
technology
UNIT –I
Computer Control Systems
9 hrs
Introduction to modern automotive systems and need for electronics in automobiles,
Components for electronic engine management. Application areas of electronics in the
automobiles, Sensors and actuators.
UNIT –II
Infotainment Systems
9 hrs
Global positioning systems, geographical information systems, navigation systems,
automotive vision system, lane departure warning system, driver assistance systems such
as power seats, Power windows, and Remote keyless entry systems.
UNIT –III Electronic fuel injection & ignition system
9hrs
Introduction, feedback carburetor system, throttle body injection, advanced GDI and
multi point fuel injection system, injection system controls, advantage of electronic
ignition systems, types of solid state ignition system and their principles of operation,
electronic spark timing control.
UNIT –IV Braking and Electronic Stability Control
9hrs
Vehicle motion control, collision avoidance control – cruise control, Adaptive cruise
control, Electronic transmission control. Vehicle stabilization system -Antilock braking
system, Traction control system, Anti slip regulation, Electronic stability program. Onboard diagnosis system.
UNIT –V
Passive safety systems
9 hrs
Air bags and seat belt pretensioner systems: Sensor functions, Distributed front air bag
sensing systems, Single-point sensing systems, Side-impact sensing – driver monitoring
systems.
L: 45 T: 0
Total 45 Hrs
Text Book
1. Automotive Computer Controlled Systems Diagnostic tools and techniques-Allan
W. M. Bonnick, Butterworth-Heinemann Linacre House, Jordan Hill, Oxford
OX2 8DP
2. Electronic Engine Control Technologies, 2nd Edition-Ronald K. Jurgen-SAE
International
3. Ljubo Vlacic, Michel Parent & Furnio Harshima, “Intelligent Vehicle
Technologies: Theory and Applications”, Butterworth-Heinemann publications,
2001
4. Denton. (2004) Automotive Electrical and Electronic Systems, Burlington, MA
01803, Elsevier Butterworth-Heinemann.
5. Ronald K. Jurgen. (1999) Automotive Electronics Handbook, McGraw-Hill Inc.,
2nd edition.
6. Bosch. (1999) Automotive Electrics & Electronics, Robert Bosch GmbH, 3rd
edition.
Reference book
1. Telematics Communication Technologies and Vehicular Networks: Wireless
Architectures and Applications-Chung-Ming Huang, National Cheng Kung
University, Taiwan; Yuh-Shyan Chen, National Taipei University, TaiwanISBN: 978-1-60566-840-6
2. Active Safety and the Mobility Industry -Dr. Andrew Brown, Jr.-SAE
International
Chairman
Board of Studies
AUE 408- CHASSIS AND ENGINE DESIGN LABORATORY
L
0
T
0
P
3
C
1
ENGINE DESIGN LABORATORY
List of Experiments:
1. Design and drawing of piston, Piston pin and piston rings and drawing of these
components.
2. Design of connecting rod small end and big end, shank design, design of big end
cap, bolts and drawing of the connecting rod assembly.
3. Design of crankshaft, balancing weight calculations.
4. Development of short and long crank arms, front end and rear end details,
drawing of the crankshaft assembly.
5. Design and drawing of the inlet and exhaust valves.
6. Design of cam and camshaft, cam profile generation, drawing of cam and
camshaft.
CHASSIS DESIGN LABORATORY
List of Experiments:
7. CLUTCH
a) Complete design of clutch components.
b) Assembly drawing of clutch using drafting software.
8. GEAR BOX
a) Gear train calculations.
b) Layout of gear box.
c) Calculation of bearing loads
d) Selection of bearings.
e) Assembly drawing of gear box using drafting software.
9. DRIVE LINE AND REAR AXLE
a) Design of propeller shaft.
b) Design details of final drive gearing.
c) Design details of full floating, semi-floating and three quarter floating rear
shafts and rear axle housings
d) Design aspects of final drive.
Total : 45 Hrs
Chairman
Board of Studies
AUE 409- ENGINE PERFORMANCE AND EMISSION
TESTING LABORATORY
L
0
T
0
P
3
C
1
ENGINE PERFORMANCE AND EMISSION TESTING LABORATORY
LIST OF EXPERIMENTS
1. Study and use of IC engine testing Dynamometers.
2. Study of 2 and 4 wheeler chassis Dynamometers.
3. Study and use of Pressure pickups, charge amplifier, storage oscilloscope and
signal analysers used for IC engine testing.
4. Performance study of petrol engine at full throttle and part throttle conditions.
5. Performance study of diesel engine both at full load and part load conditions.
6. Morse test on petrol and diesel engines.
7. Determination of compression ratio, volumetric efficiency and optimum cooling
water flow rate in IC engines.
8. Head balance test on a Automotive diesel engine.
9. Engine tuning for performance improvement.
10. Testing of 2 and 4 wheelers using chassis dynamometers.
11. Study of NDIR Gas Analyser and FID.
12. Study of Chemiluminescent NOx analyzer.
13. Measurement of HC, CO, CO2, O2 using exhaust gas analyzer.
14. Diesel smoke measurement.
Total : 45 Hrs
Chairman
Board of Studies
ENG401 COMMUNICATION SKILLS LABORATORY
L
T
P
C
0
0
3
1
Globalization has brought in numerous opportunities for the teeming millions, with more
focus on the students’ overall capability apart from academic competence. Many
students, particularly those non- English medium schools, find that they are not preferred
due to their inadequacy of communication skills and soft skills, despite possessing sound
knowledge in their subject area along with technical capability. Keeping in view their
pre- employment needs and career requirements, this course on Communication Skills
Laboratory will prepare students to adapt themselves with ease to the Industry
environment, thus rendering them as prospective assets to Industries. The course will
equip the student with the necessary communication skills that would go a long way in
helping them in their profession.
OBJECTIVES
* To equip students of engineering and technology with effective speaking and
listening skills in English.
* To help them develop their soft skills and people skills, which will make the transition
from college to workplace smoother and help them to excel in their jobs.
* To enhance students’ performance at Placement Interviews, Group discussions and
other recruitment exercises.
. PC based session (Weightage - 40%) 24 periods
A. English Language Lab (18 Periods)
1. Listening Comprehension
6hrs
Listening – Listening and sequencing of sentences – Filling in the Blanks – Listening
and answering the question
2. Reading Comprehension and Vocabulary
6hrs
Filling in the blanks – Cloze Exercises –Vocabulary building – Reading and Answering
questions
3. Speaking: (6)
Phonetics:
Intonation – Ear Training – Correct Pronunciation – Sound Recognition exercises –
Common Errors in English
Chairman
Board of Studies
Conversations:
Face to face Conversation – Telephone conversation - Role play Activities (Students take
on roles and engage in conversation) B. Career Lab (6 Periods)
(Samples are available to learn and practice in the class room session)
1. Resume / Report Preparation / Letter Writing (1)
Structuring the resume / report – Letter writing / E-mail communication – Samples
2. Presentation Skills (1)
Elements of an effective presentation – Structure of a presentation –Presentation Tools –
Voice Modulation – Audience analysis – Body Language
3. Soft Skills (2)
Time Management – Articulateness – Assertiveness – Innovation and Creativity – Stress
Management & Poise
4. Group Discussion (1)
Why is GD part of selection process? – Structure of a GD- Moderator-led and Other GDs
– Strategies in GD – team work – Body Language –Mock GD
5. Interview Skills
Kinds of Interviews –Required Key Skills – Corporate culture- Mock Interviews
II. Class Room Session (welghtage-60%) 24 periods
1 Resume / Report Preparation /Letter writing:
Students prepare their own resume and report. (2)
2. Presentation Skills: Students make presentations on given topics. (8)
3. Group Discussion: Students participate in group discussions (8)
4. Interview Skills: Students participate in Mock Interviews. (8)
Note: Classroom sessions are practice sessions
REFERENCES BOOKS:
1. Meenakshi Raman and Sangeetha Sharma, Technical Communication-
Principles
and Practice, Oxford University Press. New Delhi (2004).
2. Barker. A – Improve your communication skills – Kogan page India Pvt Ltd. New
Delhi (2006).
3. Adrian Doff and Christopher Jones- Language in Use (Upper- Intermediate).
Cambridge University Press. First South Asian Edition (2004).
4. John Seely, the Oxford Guide to writing and speaking, Oxford University Press, New
Delhi (2004).
5. Customize yourself to corporate life Dr. K. Devadoss & P. Malathy Inder
Chairman
Board of Studies
Publications, Coimbatore (2007).
CD’s
1. Train2sucess series 1.Telephone Skills.2. Interviewing Skills 3. Negotiation
Skills by Zenith Global Consultants Ltd. Mumbai.
2. BEC Series.
3. Look Ahead by Cambridge University Press.
Chairman
Board of Studies
AUE 412
MINI PROJECT
0032
The objective of this project is to provide opportunity for the students to implement
their skills acquired in the previous semesters to practical problems.
GUIDELINES:
1. Selection of a topic or project title in consultation with a staff member.
2. Develop a project planning strategy.
3. If it is an industry – sponsored project, a concurrent letter from industry is required.
4. A maximum of 4 students per group will do the project.
5. The project may be done in one of the labs under the supervision of a guide or in the
selected industry.
6. At the end of the project, a report will be written and a technical presentation along
with demonstration will be made by the students.
7. The report, project demonstration and technical presentation will be evaluated by the
internal and external examiners.
TOTAL: 45Hrs
Chairman
Board of Studies
GHE-106
HUMAN EXCELLENCE- NATIONAL VALUES
0021
(Common to VI Semester all Branches)
1. Citizenship- its significance-Enlightened citizenship.
2. Emerging India-its glory today- Global perspective-other view about India.
3. Indian culture and its greatness.
4. India and Peace.
5. India and Spirituality- Great spiritual leaders.
6. India’s message to the world – its role in global peace.
7. Service and sacrifice-Unity in diversity – case studies-live examples.
8. National values identification and practice.
9. Yogasanas -II.
10. Meditation III. [Nithyanandam& Nine Centre Meditation]
Chairman
Board of Studies
SEMESTER VII
Chairman
Board of Studies
AUE 117- VEHICLE DYNAMICS
L
3
T
1
P
0
C
4
OBJECTIVES
When the vehicle is at dynamic condition more vibration will be produced. It is essential
to study about vibrations and how to reduce the vibration under different loads, speed
and road conditions in order to improve the comfort for the passengers and life of the
various components of the vehicle. In this subject these aspects have been given.
UNIT –I
INTRODUCTION
9 hrs
Fundamentals of vibration, single degree of freedom, two degree of freedom,
multidegree freedom, free, forced and damped vibrations, modeling and simulation
studies, model of an automobile, magnification factor, transmissibility, vibration
absorber.
UNIT –II
STABILITY OF VEHICLES
9 hrs
Load distribution, calculation of acceleration, tractive effort and reactions for different
drives, stability of a vehicle on a curved track, slope and a banked road,.
UNIT –III MULTI DEGREE FREEDOM SYSTEMS
9 hrs
Closed and far coupled system, eigen value problems, orthogonality of mode shapes,
modal analysis, forced vibration by matrix inversion.
UNIT –IV SUSPENSION, TYRES AND VEHICLE HANDLING
9 hrs
Requirements, sprung mass frequency, wheel hop, wheel wobble, wheel shimmy, choice
of suspension spring rate, calculation of effective spring rate, vehicle suspension in fore
and aft, roll axis and vehicle under the action of side forces, tyre, dynamics, ride
characteristics power consumed by a tyre. Oversteer, under steer, steady state cornering,
effect of braking, driving torques on steering, effect of camber, transient effects in
cornering.
UNIT –V
NUMERICAL METHODS
9hrs
Approximate methods for determining fundamental frequency, Dunkerleys lower bound,
Rayleighs upper bound, Holzer method for closed coupled system and branched systems.
L: 45 T: 15
Total 60 Hrs
Text Book
1. Rao J.S and Gupta. K “Theory and Practice of Mechanical Vibrations”, Wiley
Eastern Ltd., 2002.
2. Giri N.K – Automotive Mechanics, Khanna Publishers, 2007.
Reference book
1. Ham B, Pacejka - Tyre and Vehicle Dynamics - SAE Publication - 2002.
2. Ellis.J.R - “Vehicle Dynamics”- Business Books Ltd., London- 1991
3. Gillespie T.D, “Fundamentals of Vehicle Dynamics”, SAE USA 1992.
4. Giles.J.G.Steering - “Suspension and Tyres”, Illiffe Books Ltd., London- 1998
Chairman
Board of Studies
AUE118-VEHICLE BODY ENGINEERING
L
3
T
0
P
0
C
3
OBJECTIVES
At the end of the course, the students will be able to have a sound knowledge for the
design of the vehicles body to give maximum comfort for the passengers and exposed to
the methods of stream lining the vehicles bodt to minimize drug.
UNIT –I
CAR BODY DETAILS
9 hrs
Types Saloon, convertibles, Limousine, Estate Van, racing and sports car – Visibility:
regulations, driver’s visibility, tests for visibility – Methods of improving visibility and
space in cars – Safety: safety design, safety equipments for car. Car body construction.
UNIT –II
VEHICLE AERODYNAMICS
9 hrs
To make the students understand the design concept and principles of various engine
components. These concepts and principles are familiarized for design of components.
UNIT –III BUS BODY DETAILS
9 hrs
Types: Mini bus, single decker, double decker, two level, split level and articulated bus –
Bus body lay out – Constructional details: Types of metal sections used – Regulations –
Conventional and integral type construction.
UNIT –IV COMMERCIAL VEHICLE DETAILS
9 hrs
Different types of commercial vehicle bodies – Light commercial vehicle body types –
Construction details of flat platform body, Tipper body & Tanker body – Dimensions of
driver’s seat in relation to controls – Drivers cab design.
UNIT –V
BODY MATERIALS, TRIM AND MECHANISMS
9hrs
Steel sheet, timber, plastics, GRP, properties of materials – Corrosion – Anticorrosion
methods – Selection of paint – Modern painting process in details – Body trim items –
Body mechanisms.
L: 45 T: 0
Total 45 Hrs
Text Book
1. Powloski,J., Vehicle Body Engineering, Business Books Ltd., 1989.
2. John Fenton, Vehicle Body layout and analysis, Mechanical Engg. Publication
Ltd.,London, 1982.
Reference book
1. Giles,G.J., Body construction and design, Illiffe Books Butterworth & Co., 1971.
2. Braithwaite,J.B., Vehicle Body building and drawing, Heinemann Educational
Books Ltd., London, 1977.
3. Dieler Anselm., The passenger car body, SAE International, 2000
Chairman
Board of Studies
AUE119 OFF ROAD VEHICLES
L
3
T
0
P
0
C
3
OBJECTIVES
At the end of the course, the students will be able to understand the various Off road
vehicle and their systems and feature.
UNIT –I
CLASSIFICATION AND REQUIREMENTS OF OFF ROAD 6 hrs
VEHICLES
Construction layout, capacity and applications. Power Plants, Chassis and Transmission,
Multiaxle vehicles.
UNIT –II
EARTH MOVING MACHINES
10hrs
Earthmovers like dumpers, loaders - single bucket, Multi bucket and rotary types bulldozers, excavators, backhoe loaders, scrappers, drag and self powered types, Bush
cutters, stumpers, tree dozer, rippers etc. – Power and capacity of earth moving
machines.
UNIT –III SCRAPPERS ,GRADERS, SHOVELS AND DITCHERS
10hrs
Scrappers, elevating graders, motor graders, self powered scrappers and graders, Power
shovel, revolving and stripper shovels – drag lines – ditchers – capacity of shovels.
UNIT –IV FARM EQUIPMENTS, MILITARY AND COMBAT
8hrs
VEHICLES
Power take off, special implements. Special features and constructional details of
tankers, gun carriers and transport vehicles.
UNIT –V
VEHICLE SYSTEMS ,FEATURES
11hrs
Brake system and actuation – OCDB and dry disc caliper brakes. Body hoist and bucket
operational hydraulics. Hydro-pneumatic suspension cylinders. Power steering system.
Kinematics for loader and bulldozer operational linkages. Safety features, safe warning
system for dumper. Design aspects on dumper body, loader bucket and water tank of
sprinkler.
L: 45 T: 0
Total 45 Hrs
Text Book
1. Robert L Peurifoy, “Construction, planning, equipment and methods” Tata
McGrawel Hill Publishing company Ltd.
2. Nakra C.P., “Farm machines and equipments” Dhanparai Publishing company
Pvt. Ltd
3. Abrosimov.K. Bran berg.A and Katayer.K., Road making machinery, MIR
Publishers, Moscow, 1971..
4. SAE Handboob Vol. III. Wong.J.T., Theory of Ground Vehicles”, John Wiley &
Sons, New York, 1987.
Reference book
1. Off the road wheeled and combined traction devices – Ashgate Publishing Co.
Ltd. 1988.
2. Schulz Erich.J, Diesel equipment I & II, Mcgraw Hill company, London.
3. Bart H Vanderveen, Tanks and Transport vehicles, Frederic Warne and Co Ltd.,
London.
4. Satyanarayana. B., Construction planning and equipment, standard publishers and
distributors, New Delhi.
Chairman
Board of Studies
AUE 410 VEHICLE DYNAMICS & SIMULATION
LABORATORY
L
0
T
0
P
3
C
1
List of Experiments:
1. Study on automotive systems simulation
2. Simulation and analysis of Rigid Axle Suspension system
3. Simulation and analysis of Independent Suspension system
4. Simulation and analysis of hydraulic brake system
5. Simulation and analysis of air brake system
6. Simulation of steady state cornering characteristics of vehicle
7. Modeling of tires and analysis of cornering characteristics
8. Roll stability and Rollover threshold analysis
9. Simulation of a half car model for pitch and bounce
10. Simulation of Quarter car model for sprung mass response for road inputs
Total : 45 Hrs
L
Chairman
Board of Studies
T
P
C
0
0
3
1
AUE 411 VEHICLE MAINTENANCE & RECONDITIONING
LABORATORY
List of Experiments:
1. Study and Layout of Automobile Repair Shop.
2. Study and Preparation of Workshop Statements.
3. Minor and Major Tuning of Diesel and Petrol Engines.
4. Fault Diagnosis of Ignition, Starting and Charging System.
5. Fault Diagnosis of Petrol and Diesel Fuel System and Filters & Air Cleaners.
6. Hand Brake and Steering Wheel.
7. Bleeding of Hydraulic Brake System and Diesel Fuel System.
8. Removal of Tyre & Tube.
9. Fault Diagnosis of Lighting System, Horn & Wiper.
10. Brake adjustment & Brake bleeding.
11. Adjustment of Head Lights.
12. Cylinder reboring – checking the cylinder bore.
13. Valve grinding, valve lapping. Setting the valve angle and checking for valve
leakage
14. Calibration of fuel injection pump
15. Wheel alignment – Testing of camber, caster.
16. Testing kingpin inclination, toe-in and toe-out.
Total : 45 Hrs
Chairman
Board of Studies
GHE-107
HUMAN EXCELLENCE- GLOBAL VALUES
0021
(Common to VII Semester all Branches)
1. Global values – understanding and identification – its importance.
2. Racial discrimination and solution – Ecological imbalance and solution.
3. Political upheavals and solution – Social inequality and solution – live
discussions and debate.
4. Cultural degradation and solution – live case discussions and debate.
5. Emergence of monoculture – solution.
6. Global terrorism – it’s cause and effect – solution.
7. Economic marginalization and solution – it’s impact in the globe.
8. Man is the cause and man is the solution.
9. All Meditations.
10. All Yogasanas.
Chairman
Board of Studies
case
ELECTIVES
Chairman
Board of Studies
GSS 102
PRINCIPLES OF MANAGEMENT
L
3
T
0
P
0
C
3
OBJECTIVES
1.
2.
3.
4.
5.
To study the importance and functions of management in an organization
To study the importance of planning and also the different types of plan
To understand the different types of organization structure in management
To understand the basis and importance of directing and controlling in management
To understand to the importance of corporate governance and social responsibilitie.
UNIT –I
MANAGEMENT CONTEXT
9 hrs
Management – Definition – Importance – Functions – Skills required for managers Roles and functions of managers – Science and Art of Management –Management and
Administration.
Evolution of Classical, Behavioral and Contemporary management thoughts.
UNIT –II
PLANNING
9 hrs
Nature & Purpose – Steps involved in Planning – Forms of Planning – Types of plans –
Plans at Individual, Department and Organization level - Managing by Objectives.
Forecasting – Purpose – Steps and techniques. Decision-making – Steps in decision
making
UNIT –III ORGANISING
9 hrs
Nature and Purpose of Organizing - Types of Business Organization - Formal and
informal organization – Organization Chart – Structure and Process – Strategies of
Departmentation– Line and Staff authority – Benefits and Limitations. Centralisation Vs
De-Centralization and Delegation of Authority.Staffing – Manpower Planning –
Recruitment – Selection – Placement – Induction.
UNIT –IV DIRECTING & CONTROLLING
9hrs
Nature & Purpose – Manager Vs. Leader - Motivation - Theories and Techniques of
Motivation.
Leadership – Styles and theories of Leadership.
Communication – Process – Types – Barriers – Improving effectiveness in
Communication.
Controlling – Nature – Significance – Tools and Techniques.
UNIT –V
CONTEMPORARY ISSUES IN MANAGEMENT
9hrs
Corporate Governance Social responsibilities – Ethics in business – Recent issues.
American approach to Management, Japanese approach to Management, Chinese
approach to Management and Indian approach to Management.
L: 45 T: 0
Total 45 Hrs
Text Book
1 Tripathy PC And Reddy PN, “Principles of Management”, Tata McGraw-Hill, 4th Edition,
2008.
REFERENCES
1. Dinkar Pagare, “Principles of Management”, Sultan Chand & Sons, 2000.
2. Kanagasapapathi. P (2008) Indian Models of Economy, Business and Management,
Prentice Hall of India, New Delhi, ISBN: 978-81-203-3423-6.
3. G.K.Vijayaraghavan and M.Sivakumar, “Principles of Management”, Lakshmi
Publications, 5th Edition, 2009.
4. Harold Koontz & Heinz Weihrich, “Essentials of Management – An International
perspective”, 8th edition. Tata McGraw-Hill, 2009.
5. Charles W.L. Hill and Steven L McShane – Principles of Management, Tata Mc GrawHill, 2009.
Chairman
Board of Studies
GSS105
ENTREPRENEURSHIP DEVELOPMENT
L
3
T
0
P
0
C
3
OBJECTIVES
1 To study the factors affecting Entrepreneurship growth and their problems.
2 To understand the importance of Entrepreneurial Development programmes.
3 To study the projects identification, selection and formulation
4 To understand the role of government in entrepreneurial development
5 To understand the basis of intellectual property rights in India.
UNIT –I
INTRODUCTION TO ENVIRONMENTAL STUDIES AND
9hrs
NATURAL RESOURCES
Entrepreneur –Entrepreneurship and economic development – its importance – Entrepreneur
Qualities, nature, types, traits of entrepreneur. Similarities and differences between entrepreneur
and manager – factors affecting entrepreneurship growth-Problems of entrepreneurs
UNIT –II
ECOSYSTEMS AND BIODIVERSITY
9hrs
Entrepreneurial promotion: Motivation: Theories and factors – Entrepreneurial development
programmes – need, objectives, phases and evaluation - Training and developing - occupational
mobility - factors in mobility - Role of consultancy organizations is promoting entrepreneurs.
UNIT –III ENVIRONMENTAL POLLUTION
9 hrs
Project Management: Project identification and selection – project formulation – Report
preparation – evaluation: marketing - technical and financial.
UNIT –IV SOCIAL ISSUES AND THE ENVIRONMENT
9hrs
Role of government in entrepreneurial development – District Industry Centre and its role –
Government incentives – financial and non-financial – Sectoral reservation for SSI and tiny
sector.
UNIT –V
HUMAN POPULATION AND THE ENVIRONMENT
9hrs
Property-definition and ownership-kinds of property-types of intellectual propertypatent-trade
marks – industrial design-need for protection for IP-WIPO and its activities-TRIPS Agreementevoluation of IPR in India.
L: 45 T: 0
Total 45 Hrs
Text Book
1 Entrepreneurial Development by S S Khanka, S. Chand & Co: 2008 ISBN:
81219-1801-4
2. Intellectual Property Rights Text and Case, by Dr. R. Radhakrishnan and Dr. S.
Balasubramanian, Excel Books – 2008, ISBN: 978-81-7446-609-9
References
1.Vasanth Desai “Dynamics of Entrepreneurial Development and Management”
Himalaya Publishing House.
2. N.P.Srinivasan & G.P. Gupta “Entrepreneurial Development” Sultanchand & Sons.
3. P.Saravanavelu “Entrepreneurship Development” Eskapee publications.
4. S.S.Khanka “Entrepreneurial Development” S.Chand & Company Ltd.,
5. Satish Taneja, Entrepreneur Development ; New Venture Creation
www.iprventure.com,
Chairman
Board of Studies
GSS107
INDIAN ECONOMY
L
3
T
0
P
0
C
3
OBJECTIVES
1. To understand the fundamentals of Macro Economics and National Income of India.
2. To study the importance of planning and economic growth in India.
3. To understand the importance of infrastructural development in the economy.
4. To know the causes of unemployment and different employment schemes for educated
and uneducated.
5. To study the basis of Indian Banking system and its importance.
UNIT –I
Fundamentals of Macro-economics
9hrs
Economics – economic activity -factors of production – factor income and circular flow
of income. Concept of national income- definition of GNP, GDP – National Income of
India - Growth and structure.
UNIT –II
Planning and Economic Growth
9hrs
Indian planning – Planning commission – Five year plans – objectives and achievements
– Industry policies – public sector understandings – private sector – SSIs Recent trends
in SSIs, SME and SEZ – Economic reforms and globalization – IT and IT enable service
in India.
UNIT –III Infrastructure of Indian Economy
9 hrs
Infrastructure and Economic development – power and energy – Transport: road, rail –
and civil aviation. Urban infrastructure – international transport system – sea and air.
UNIT –IV Labour and Unemployment
10hrs
Population –size and growth – demographic transition – age composition – education
and its issues. Employment – nature of unemployment its causes – Employment schemes
for educated and uneducated.
UNIT –V
Indian Banking System and Credit
9hrs
Reserve Bank of India: its basic functions – commercial banks – its functions: deposit
acceptance and lending – types of deposit – types of loans and advances –other banking
services.
L: 45 T: 0
Total 45 Hrs
Text Book
1. Indian Economy by Ruddar Datt and KPM Sundaram, S. Chand and Co – 2004
ISBN: 81-219-2045-0
2. Macro Economics by H.L. Ahuja, S. Chand and Co – 2008, ISBN: 81-2190433-1
References
1. Indian Economy, Mishra, S. K. and V. K. Puri; Himalaya Publishing House,
2003, 21st revised edition.
2. Economics by Samuelson and Nordhaus, Tata – Mecrew Hill, 2007.
Chairman
Board of Studies
GSS108 -
OPERATIONS RESEARCH
L
3
T
0
P
0
C
3
OBJECTIVES
On completion of the course the students are expected
• To be aware of optimization of resources.
• To understand and apply operations research techniques to industrial operations.
• To know how to formulate and solve Linear Programming Problems using
various
• techniques.
• To solve transportation and assignment problems.
• To analyse CPM and PERT networks and evaluate projects.
• To solve replacement problems of different types.
• To solve sequencing problem.
• To know various queueing models and to solve queue problems.
UNIT –I
LINEAR PROGRAMMING PROBLEM
9hrs
The phases of OR study – formation of an L.P model – graphical solution – simplex
algorithm – artificial variable technique: Big M Method, Two-phase method.
UNIT –II
TRANSPORTATION AND ASSIGNMENT PROBLEM
9hrs
Initial basic solution by North West corner method – least cost method – Vogels
approximation method – optimality test – MODI method. Unbalanced transportation
problem. Assignment problem – Hungarian method – unbalanced assignment problem.
UNIT –III NETWORK MODELS
9 hrs
Shortest route – minimal spanning tree – maximum flow models – Project network: CPM
and PERT network.
UNIT –IV REPLACEMENT AND SEQUENCING MODELS
10hrs
Replacement of items that deteriorate with time – value of money changing with time –
Not changing with time – optimum replacement policy – individual and group
replacement .Sequencing problem: models with n jobs with 2 machines – problem with n
jobs with 3 machines.
UNIT –V
QUEUING THEORY
9hrs
Queuing models – queuing systems and structures – notation – single server
and multi server models – Poisson input – exponential service – constant rate
service.
L: 45 T: 0
Total 45 Hrs
Text Book
1. Taha, H.A,” Operations Research”(2007), Prentice Hall of India, New
Delhi.
References
1. Gupta, P.K., and Hira, D.S.,”Operations Research “(2008) S.Chand and Co.,
New Delhi.
2. Gupta, P.K., and Hira, D.S.,” Problems in Operations Research “(2008)
S.Chand and Co., New Delhi.
3. Panneerselvam, Operation Research “(2007) Prentice Hall of India, New
Delhi.
4. Harvey M.Wagner,”Principles of Operations Research “(2007), Prentice Hall
of India, New Delhi.
Chairman
Board of Studies
AUE121-ALTERNATE FUELS AND ENERGY SYSTEMS
L
3
T
0
P
0
C
3
OBJECTIVES
At the end of the course, the student will be able to acquire knowledge of alternate fuels
and the changes in the engine design for handling them and understand various energy
systems for use in the automobiles.
UNIT –I
INTRODUCTION
6 hrs
Estimation of petroleum reserve “World Energy Scenerio, Energy Survey of India” –
Need for alternate fuel – Availability of alternate fuels.
UNIT –II
ALCOHOLS
9 hrs
Properties as engine fuels, alcohols and gasoline blends, performance in SI engine.
Methanol and gasoline blends – Combustion characteristics in engines – emission
characteristics.
UNIT –III NATURAL GAS, LPG, HYDROGEN AND BIOGAS
9 hrs
Availability of CNG, properties, modification required to use in engines – performance
and emission characteristics of CNG and LPG in SI & CI engines. Performance and
emission for LPG – Hydrogen – Storage and handling, performance and safety aspects.
UNIT –IV VEGETABLE OILS
10hrs
Various vegetable oils for engines – Esterification – Performance in engines –
Performance and emission characteristics.
UNIT –V
ELECTRIC AND SOLAR POWERED VEHICLES
11hrs
Layout of an electric vehicle – advantage and limitations – Specifications – System
component, Electronic control system – High energy and power density batteies –
Hybrid vehicle – Solar powered vehicles. Fuel cell vehicles.
L: 45 T: 0
Total 45 Hrs
Text Book
1 Ramalingam. K.K., Internal combustion engine, scitech publications, Chennai,
2003.
2 Maheswar Dayal, Energy today & tomorrow, I & B Horishr India, 1982.
3 Bechtold,R.L., Alternative Fuels Guide Book, SAE, 1997.
Reference book
1 Nagpal, Power Plant Engineering, Khanna Publishers, 1991.
2 Alcohols and motor fuels progress in technology, Series No.19, SAE Publication
USA 1980
3 SAE Paper Nos.840367, 841156, 841333, 841334.
4 The properties and performance of modern alternate fuels – SAE Paper No.841210.
Chairman
Board of Studies
AUE122-AUTOMOTIVE SAFETY
L
3
T
0
P
0
C
3
OBJECTIVES
At the end, the student will have good exposure to Automotive safety aspects including
safety equipments.
UNIT –I
INTRODUCTION
9 hrs
Design of the body for safety, energy equation, engine location, deceleration of vehicle
inside passenger compartment, deceleration on impact with stationary and movable
obstacle, concept of crumble zone, safety sandwich construction.
UNIT –II
SAFETY CONCEPTS
9 hrs
Active safety: driving safety, conditional safety, perceptibility safety, operating safety
passive safety: exterior safety, interior safety, deformation behaviour of vehicle body,
speed and acceleration characteristics of passenger compartment on impact.
UNIT –III SAFETY EQUIPMENTS
9 hrs
Seat belt, regulations, automatic seat belt tightener system, collapsible steering column,
tiltable steering wheel, air bags, electronic system for activating air bags, bumper design
for safety.
UNIT –IV COLLISION WARNING AND AVOIDANCE
9 hrs
Collision warning system, causes of rear end collision, frontal object detection, rear
vehicle object detection system, object detection system with braking system
interactions.
UNIT –V
COMFORT AND CONVENIENCE SYSTEM
9 hrs
Steering and mirror adjustment, central locking system , Garage door opening system,
tyre pressure control system, rain sensor system, environment information system
L: 45 T: 0
Total 45 Hrs
Text Book
1 Bosch - “Automotive Handbook” - 5th edition - SAE publication - 2000.
Reference book
1 J.Powloski - “Vehicle Body Engineering” - Business books limited, London 1969.
2 Ronald.K.Jurgen - “Automotive Electronics Handbook” - Second editionMcGraw- Hill Inc., - 1999.
Chairman
Board of Studies
AUE123-HYDRAULICS AND PNEUMATICS SYSTEMS
L
3
T
0
P
0
C
3
OBJECTIVES
This course will give an appreciation of the fundamental principles, design and operation
of hydraulic and pneumatic machines, components and systems and their application in
recent automation revolution.
UNIT –I
INTRODUCTION
6 hrs
Introduction to fluid power, properties - hydraulic fluids, air. Selection of hydraulic
fluids, comparison between hydraulics and pneumatics. Symbols of pneumatic elements
and hydraulic elements.
UNIT –II
PNEUMATIC SYSTEMS
12hrs
Basic requirement of pneumatic system. Elements of pneumatics, constructional details
of air compressors, air motors, control valves, actuators and mountings, filter, lubricator,
regulator. General approach of system design, travel step diagram. Types - sequence
control, cascade, step counter method. K.V.Mapping for minimization of logic equation.
Simple circuits.
UNIT –III HYDRAULIC SYSTEMS
12hrs
Pumps and motors- types, characteristics. Cylinders, types, construction details. Valves
for control of direction, flow and pressure, types, construction details. Power pack–
elements, design. Pipes- material, pipe fittings. seals and packing. Maintenance of
hydraulic systems. Selection criteria for cylinders, valves, pipes.
UNIT –IV ADVANCED TOPICS IN HYDRAULICS AND
6hrs
PNEUMATICS
Electro pneumatics, ladder diagram. Servo and Proportional valves - types, operation,
application. Hydro-Mechanical servo systems. PLC-construction, types, operation,
programming.
UNIT –V
AUTOMOTIVE APPLICATIONS
6hrs
Hydraulic tipping mechanism, power steering, fort lift hydraulic gear, hydro-pneumatic
suspension, air brake and maintenance and trouble shooting of pneumatic circuits.
L: 45 T: 0
Total 45 Hrs
Text Book
1 Anthony Esposito,” Fluid Power with Applications”, PHI / Pearson Education,
2005.
Reference book
1 Shanmugasundaram.K, “Hydraulic and Pneumatic controls”, Chand & Co, 2006.
2 Majumdar, S.R., “Oil Hydraulics Systems- Principles and Maintenance”, Tata
McGraw Hill, 2001
3 Majumdar, S.R., “Pneumatic Systems – Principles and Maintenance”, Tata
McGraw Hill, 2007.
4 Micheal J, Pinches and Ashby, J.G., “Power Hydraulics”, Prentice Hall, 1989.
5 Dudelyt, A Pease and John J Pippenger, “Basic Fluid Power”, Prentice Hall, 1987.
Chairman
Board of Studies
AUE124-RUBBER TECHNOLOGY FOR AUTOMOBILES
L
3
T
0
P
0
C
3
UNIT –I
INTRODUCTION
6 hrs
Identification of plastics / rubber components in automobiles – function – selection
criteria.
UNIT –II
STRUCTURE-PROPERTY RELATIONSHIP OF RUBBER
10hrs
Resilience, creep, hysteresis and damping, stability, set and stress relaxation, behaviour
in dynamic applications.
UNIT –III VIBRATION AND RUBBER SPRING
10hrs
Principle of vibration isolation – rubber mounts – spring design – comparison with
metallic springs – shape factor and its effect – forced and free vibrations with damping –
typical mounts, compounding and manufacture.
UNIT –IV FLUID SEALINGS AND FLEXIBLE COUPLINGS AND
10hrs
HOSES
Seals for static and dynamic applications – effect of heat / oil ageing – frictional
behaviour – fundamental of sealability.
UNIT –V
COMPOUNDING AND MANUFACTURE
9 hrs
Types of couplings – specification and selection – torque vs deflection relationships –
brake fluid / hydraulic hoses, materials and manufacture.
L: 45 T: 0
Total 45 Hrs
Text Book
1 Freakley,P.K., and Payne,A.R., Theory and Practice of Engineering with Rubber,
Applied Science Publishers Ltd.
Reference book
1 Hobel,E.F., Rubber Springs Design.
2
Blow,C.M. and Hepburn,C., Rubber Technology and Manufacture.
Chairman
Board of Studies
AUE125-MEASUREMENTS AND METROLOGY
L
3
T
0
P
0
C
3
OBJECTIVES
Study of the theory, construction and operation of different measurement technology,
instruments transducers and their application
UNIT –I
LINEAR MEASUREMENT
9 hrs
Units and standards, terminology and measurement errors. Linear measuringinstruments,
dial gauges, comparators and linear measuring machines. Angular measuring
instruments- measurement of straightness flatness and surface finish. Profilographs..
UNIT –II
PRESSURE MEASUREMENT
9 hrs
Bourden tube, diaphragm, bellows and pressure capsules: Transducers used in pressure
measurement- potentiometer, strain gauges, LVDT, capacitive and variable reluctance
type transducers. Dynamic pressure measurement piezo electric and piezo resistive
transducers. Farnboro engine indicator. Low pressure measurement Mc leod gauge,
Pirani gauge,, thermal conductivity type pressure measurement.
UNIT –III FLOW MEASUREMENT
9 hrs
Obstruction type flow meter- orifice plate, venturimeter, flow nozzles, pitot tube,
rotometer. Positive displacement flow meters – turbine flow meter, flouted tube
flowmeter, anemometer, ultrasonic flow meter, magnetic flow meters. Alcock viscous air
flow meter.
UNIT –IV TEMPERATURE MEASUREMENT
9hrs
Temperature scales – mechanical temperature sensors, liquid in glass, vapour pressure,
bimetal temperature gauges. Resistance type temperature sensors. Thermistors,
thermocouples, Laws of thermocouple, types of thermocouples. Construction and circuits
for thermocouples. High temperature measurement pyrometers.
UNIT –V
FORCE AND TORQUE MEASUREMENT
9 hrs
Force measuring devices- Balances, platform scales, weigh bridges, load cells, proving
ring. Torque measurement – prony brake, rope brake and fan type brakes. Dynamometers
– hydraulic, electric cardle and eddy current dynamometers. Transmission
dynamometers. Chassis dynamometers.
L: 45 T: 0
Total 45 Hrs
Text Book
1 Jain R.K., “Engineering Metrology”, Khanna publishers, New Delhi, 2005.
2 Rangan C.S., Sarma G.E and Mani V.S “Instrumentation devices and systems”.
TMH Publishing Co. New Delhi, 2001.
3 Beckwith T.G & Buck N.L “Mechanical Measurements”, Oxford and IBH
publishing house New Delhi, 2004.
Reference book
1 Patranabis D, “Principles of industrial instrumentation”, TMH Publishing Co. New
Delhi, 2000.
2 Jain R.K., “Mechanical & Industrial Measurements” , Khanna publishers, New
Delhi, 2005.
3 Doeblin,”Measurement System Application &Design” McGraw Hill ,New Delhi,
2004.
4 Gaylor F.W and Shotbolt C.R “Metrology for Engineers”, ELBS, 2006.
Chairman
Board of Studies
AUE126-COMPUTER SIMULATION OF IC ENGINE
PROCESSES
L
3
T
0
P
0
C
3
UNIT –I
INTRODUCTION
10hrs
Introduction – Heat of reaction – Measurement of URP – Measurement of HRP –
Adiabatic flame temperature: Complete combustion in C/H/O/N Systems, Constant
volume adiabatic combustion, constant pressure adiabatic combustion. Calculation of
adiabatic flame temperature – Isentropic changes of state.
UNIT –II
SI ENGINE SIMULATION WITH AIR AS WORKING
10hrs
MEDIUM
Deviation between actual and ideal cycle – Problems, SI engine simulation with
adiabatic combustion, temperature drop due to fuel vaporization, full throttle operation –
efficiency calculation, part-throttle operation, super charged operation.
UNIT –III PROGRESSIVE COMBUSTION
9 hrs
SI Engines simulation with progressive combustion with gas exchange process, Heat
transfer process, friction calculation, compression of simulated values, validation of the
computer code, engine performance simulation, pressure crank angle diagram and other
engine performance.
UNIT –IV SIMULATION OF 2-STROKE SI ENGINE
7 hrs
Intake, Exhaust, Charging and Combustion Simulation
UNIT –V
DIESEL ENGINE SIMULATION
9 hrs
Zero, one and multi zone model for combustion, different heat release and heat transfer
models, equilibrium calculations, simulation of engine performance.
L: 45 T: 0
Total 45 Hrs
Text Book
1 Ganesan,V., Computer Simulation of spark ignition engine process, Universities
Press (I) Ltd., Hyderabad, 1996.
Reference book
1 Ramoss,A.L., Modelling of Internal Combustion Engines Processes, McGraw Hill
Publishing Co., 1992.
2 Ashley Campbel, Thermodynamics analysis of combustion engines, John Wiley &
Sons, New York, 1986.
3 Benson,R.S., Whitehouse,N.D., Internal Combustion Engines, Pergamon Press,
Oxford, 1979.
Chairman
Board of Studies
L T P C
AUE127-MICROPROCESSOR APPLICATION IN
AUTOMOBILES
3 0 0 3
OBJECTIVES
The main objective of this course is to impart knowledge in 8085 microprocessor along
with its interface circuits. At the end of the course the students will have command over
writing assembly level programs for automotive application.
UNIT –I
ARCHITECTURE OF 8085 MICROPROCESSOR
9 hrs
8085 architecture - Functional block diagram - pin function - Registers, ALU,
Bussystems - Timing and control signals, stack.
UNIT –II
ASSEMBLY LANGUAGE PROGRAMMING
8 hrs
Instruction format - addressing modes - instruction set - Construct of the language
programming - Assembly directive - programs like addition, subtraction, multiplication,
division, code conversion, lookup tables etc.
UNIT –III I/O INTERFACING INTERRUPTS
8 hrs
Simple I/O ports - Programmable peripheral interface (8255) - Interfacing of switch,
LED's, ROM and RAM, keyboard - display. Interrupt feature - Need for interrupts Characteristics and Types of interrupts - Interrupt structure - Methods of servicing
interrupts - Development of interrupt service subroutines - DMA.
UNIT –IV SIGNAL CONDITIONING
10hrs
Need - Analog to Digital and Digital to Analog converter - selection criteria for
ADC/DAC -Interfacing ADC0801- DAC0800.
UNIT –V
APPLICATIONS
10hrs
Data acquisitions - temperature control - stepper motor control - engine control –
Casestudies
L: 45 T: 0
Total 45 Hrs
Text Book
1 Ramesh S. Goankar, "Microprocessor Architecture: Programming and Applications
with the 8085", Fourth edition, penram international, 2000.
Reference book
1 Douglas, V. Hall, "Microprocessors and Interfacing Programming and Hardware",
Second edition, McGraw Hill Inc., 1992.
2 Kenneth, L.Short, "Microprocessors and Programmed Logic", Second edition,
Prentice Hall of India, New Delhi, 1987.
Chairman
Board of Studies
AUE128-FUEL CELLS TECHNOLOGY
L
3
T
0
P
0
C
3
OBJECTIVES
To introduce the concept of fuel cells for use in automobiles, analyse the performance
characteristics of the various components and compare them with the other powering
devices
UNIT –I
INTRODUCTION TO FUEL CELLS
9 hrs
Introduction – working and types of fuel cell – low, medium and high temperature fuel
cell, liquid and methanol types, proton exchange membrane fuel cell solid oxide,
hydrogen fuel cells – thermodynamics and electrochemical kinetics of fuel cells.
UNIT –II
FUEL CELLS FOR AUTOMOTIVE APPLICATIONS
9 hrs
Fuel cells for automotive applications – technology advances in fuel cell vehicle systems
– onboard hydrogen storage – liquid hydrogen and compressed hydrogen – metal
hydrides, fuel cell control system – alkaline fuel cell – road map to market.
UNIT –III FUEL CELL COMPONENTS AND THEIR IMPACT ON 9 hrs
PERFORMANCE
Fuel cell performance characteristics – current/voltage, voltage efficiency and power
density, ohmic resistance, kinetic performance, mass transfer effects – membrane
electrode assembly components, fuel cell stack, bi-polar plate, humidifiers and cooling
plates.
UNIT –IV FUELING
9hrs
Hydrogen storage technology – pressure cylinders, liquid hydrogen, metal hydrides,
carbon fibers – reformer technology – steam reforming, partial oxidation, auto thermal
reforming – CO removal, fuel cell technology based on removal like bio-mass.
UNIT –V
FUEL CYCLE ANALYSIS
9hrs
Introduction to fuel cycle analysis – application to fuel cell and other competing
technologies like battery powered vehicles, SI engine fueled by natural gas and hydrogen
and hybrid electric vehicle.
L: 45 T: 0
Total 45 Hrs
Text Book
1 Fuel Cells for automotive applications – professional engineering publishing UK.
ISBN 1-86058 4233, 2004.
2 Fuel Cell Technology Handbook SAE International Gregor Hoogers CRC Press
ISBN 0-8493-0877-1-2003.
Chairman
Board of Studies
AUE129-ELECTRIC AND HYBRID VEHICLES
L
3
T
0
P
0
C
3
OBJECTIVES
To illustrate the electric and hybrid vehicles and their operation and controls
UNIT –I
INTRODUCTION TO ELECTRIC VEHICLES
9 hrs
Layout of an electric vehicle, performance of electric vehicles – traction motor
characteristics, tractive effort, transmission requirements, vehicle performance, energy
consumption, advantage and limitations, specifications, system components, electronic
control system.
UNIT –II
HYBRID VEHICLES
8 hrs
Concepts of hybrid electric drive train, types, architecture of series and parallel hybrid
electric drive train, merits and demerits, series and parallel hybrid electric drive train
design.
UNIT –III ELECTRIC PROPULSION SYSTEMS, GENERATORS,
10hrs
MOTOR CONTROLLERS AND CONTROL SYSTEMS
DC motors, AC motors, permanent magnet motors, brushless DC and reluctance motors,
characteristics, regenerative braking.
DC generators, AC generators, voltage and frequency regulations.
Control system principles, speed and torque control – DC motors and AC motors.
UNIT –IV ENERGY STORAGES
9 hrs
Electromechanical batteries- types of batteries –lead acid batteries, nickel based batteries,
lithium based batteries, electrochemical reactions, thermodynamic voltage, specific
energy, specific power, energy efficiency, ultracapacitors.
UNIT –V
FUEL CELLS & SOLAR CARS
9 hrs
Fuel cell, construction, working, equations, possible fuel sources, fuel reformer, design.
Solar
cars- photovoltaic cells, tracking, efficiency and cost comparison
L: 45 T: 0
Total 45 Hrs
Text Book
1 Mehrdad Ehsani, Yimin Gao, sebastien E. Gay and Ali Emadi, “Modern Electric,
Hybrid Electric and Fuel Cell Vehicles: Fundamentals, Theory and Design”, CRS
Press, 2004.
2 James Larminie and John Loury, “Electric Vehicle Technology-Explained”, John
Wiley & Sons Ltd., 2003.
3 Sandeep Dhameja, “Electric Vehicle Battery Systems”, Butterworth –Heinemann,
2002.
4 Ronald K Jurgen, “Electric and Hybrid – Electric Vehicles”, SAE, 2002.
5 Ron Hodkinson and John Fenton, “Light Weight Electric/Hybrid Vehicle Design”,
Butterworth-Heinemann, 2001.
Chairman
Board of Studies
AUE130-AUTOMOTIVE AERODYANAMICS
L
3
T
0
P
0
C
3
OBJECTIVES
• At the end of the course, the students will be able to apply basic principles
of aerodynamics for the design of vehicle body.
UNIT –I
INTRODUCTION
9hrs
Scope, historical developments, fundamental of fluid mechanics, flow phenomenon
related to vehicles, external and Internal flow problem, resistance to vehicle motion,
performance, fuel consumption and performance potential of vehicle aerodynamics,
engine
cooling
requirement,
air flow to passenger compartment, duct for air conditioning, cooling of transverse
engine and rear engine.
UNIT –II
AERODYNAMIC DRAG OF CARS
9 hrs
Cars as a bluff body, flow field around car, drag force, types of drag force, analysis of
aerodynamic drag, drag coefficient of cars, strategies for aerodynamic development, low
drag profiles.
UNIT –III SHAPE OPTIMIZATION OF CARS
9 hrs
Front end modification, front and rear wind shield angle, boat tailing, hatch back, fast
back and square back, dust flow patterns at the rear, effects of gap configuration, effect
of fasteners.
UNIT –IV VEHICLE HANDLING
9 hrs
The origin of forces and moments on a vehicle, lateral stability problems, methods to
calculate forces and moments – vehicle dynamics under side winds, the effects of forces
and moments, characteristics of forces and moments, dirt accumulation on the vehicle,
wind noise, drag reduction in commercial vehicles.
UNIT –V
WIND TUNNELS FOR AUTOMOTIVE AERODYNAMICS
9 hrs
Introduction, principle of wind tunnel technology, limitation of simulation, stress with
scale models, full scale wind tunnels, measurement techniques, equipment and
transducers, road testing methods, numerical methods.
L: 45 T: 0
Total 45 Hrs
Text Book
1. Hucho.W.H. - “Aerodynamic of Road Vehicles” - Butterworths Co., Ltd., 1997.
Reference book
1. Pope - “Wind Tunnel Testing “ - John Wiley & Sons - 2nd Edition, New York
- 1974.
2. Automotive Aerodynamic: Update SP-706 - SAE - 1987
3. Vehicle Aerodynamics - SP-1145 - SAE – 1996.
Chairman
Board of Studies
AUE131-ROBOTICS
L
3
T
0
P
C
3
OBJECTIVES
• At the end of the course, the students will be able to understand about the
basics of robots.
• Understanding the usage of Robots in Automotive Industries
UNIT –I
FUNDAMENTALS OF ROBOT
7hrs
Robot – Definition – Robot Anatomy – Co-ordinate Systems, Work Envelope, types and
classification – Specifications – Pitch, Yaw, Roll, Joint Notations, Speed of Motion, Pay
Load – Robot Parts and Their Functions – Need for Robots – Different Applications
UNIT –II
ROBOT DRIVE SYSTEMS AND END EFFECTORS
10hrs
Pneumatic Drives – Hydraulic Drives – Mechanical Drives – Electrical Drives – D.C.
Servo Motors, Stepper Motor, A.C. Servo Motors – Salient Features, Applications and
Comparison of all these Drives. End Effectors – Grippers – Mechanical Grippers,
Pneumatic and Hydraulic Grippers, Magnetic Grippers, Vacuum Grippers; Two Fingered
and Three Fingered Grippers; Internal Grippers and External Grippers; Selection and
Design Considerations
UNIT –III SENSORS AND MACHINE VISION
10hrs
Requirements of a sensor, Principles and Applications of the following types of sensors –
Position of sensors (Piezo Electric Sensor, LVDT, Resolvers, Optical Encoders,
Pneumatic Position Sensors), Range Sensors (Triangulation Principle, Structured,
Lighting Approach, Time of Flight Range Finders, Laser Range Meters), Proximity
Sensors (Inductive, Hall Effect, Capacitive, Ultrasonic and Optical Proximity Sensors),
Touch Sensors, (Binary Sensors, Analog Sensors),Wrist Sensors, Compliance Sensors,
Slip Sensors
Camera, Frame Grabber, Sensing and Digitizing Image Data – Signal Conversion,
Image Storage, Lighting Techniques. Image Processing and Analysis – Data Reduction,
Segmentation, Feature Extraction, Object Recognition, Other Algorithms. Applications –
Inspection, Identification, Visual Serving and Navigation.
UNIT –IV ROBOT KINEMATICS AND ROBOT PROGRAMMING
10hrs
Forward Kinematics, Inverse Kinematics and Differences –Forward Kinematics and
Reverse Kinematics of Manipulators with Two, Three Degrees of Freedom (In 2
Dimensional), Four Degrees of Freedom (In 3 Dimensional) – DH matrices - Deviations
and Problems.
Teach Pendant Programming, Lead through programming, Robot programming
Languages – VAL Programming – Motion Commands, Sensor Commands, End effecter
commands, and Simple programs
UNIT –V
IMPLEMENTATION AND ROBOT ECONOMICS
8 hrs
RGV, AGV; Implementation of Robots in Industries – Various Steps; Safety
Considerations for Robot Operations; Economic Analysis of Robots – Pay back Method,
EUAC Method, Rate of Return Method
L: 45 T: 0
Total 45 Hrs
Text Book
1. M.P.Groover, “Industrial Robotics – Technology, Programming and
Applications”, McGraw-Hill, 2001.
Reference book
1. Fu.K.S. Gonzalz.R.C., and Lee C.S.G., “Robotics Control, Sensing,Visionand
Intelligence”,McGraw-Hill Book Co., 1987
2. Yoram Koren, “Robotics for Engineers”, McGraw-Hill Book Co., 1992
Chairman
Board of Studies
AUE132-SPECIAL TYPE OF VEHICLES
L
3
T
0
P
0
C
3
OBJECTIVES
The main objective of this course is to introduce the concept and principle of operation
of special vehicles such as Bulldozers, Ditchers, Bucket excavators, farm equipments,
military vehicles etc. At the end of the course, the students can have a better
understanding of the application of the special types of vehicles in the excavation of
earth.
UNIT –I
EARTH MOVING AND CONSTRUCTIONAL
10hrs
EQUIPMENTS
Construction layout, capacity and applications of earthmovers for dumpers, front-end
loaders, bulldozers, excavators, backhoe loaders, scrappers, motor graders etc. criteria for
selection of prime mover fro dumpers and front end loaders based on vehicle
performance characteristics.
UNIT –II
POWER TRAIN CONCEPTS
7 hrs
Engine – converter match curves. Epicyclic type transmissions. Selection criteria for
universal joints. Constructional details of steerable and drive axles of dumper.
14hrs
UNIT –III VEHICLE SYSTEMS, FEATURES
Brake system and actuation – OCDB and dry disc caliper brakes. Body hoist and bucket
operational hydraulics. Hydro-pneumatic suspension cylinders. Power steering system.
Kinematics for loader and bulldozer operational linkages. Safety features, safe warning
system for dumper. Design aspects on dumper body, loader bucket and water tank of
sprinkler. Articulated vehicles, double decker. Firefighting equipment.
UNIT –IV SPECIAL PURPOSE VEHICLES FOR INDUSTRIAL
5 hrs
APPLICATIONS
Constructional features, capacity and stability of jib cranes. Vibratory compactors.
Stackers bore well machines, concrete mixtures.
UNIT –V
FARM EQUIPMENTS, MILITARY AND COMBAT
9 hrs
VEHICLES
Ride and stability characteristics, power take off, special implementations. Special
Features and constructional details of tankers, gun carriers and transport vehicles.
Harvesting vehicles.
L: 45 T: 0
Total 45 Hrs
Text Book & References
1. Pipenger, ‘Industrial Hydralics’, Mcgraw Hill, Tokoyo, 1979.
2. A. Astakhov, ‘Truck cranes’, MIR Publishers, Moscow, 1971.
3. Bart H Vanderveen, ‘Tanks and Transport Vehicles’, Frederic Warne and co.
Ltd., London, 1974.
4. K. Abrosimov, A. Bromberg and F. Katayer, ‘Road making machineries’, MIR
Publisher, Moscow,1975.
5. SAE Handbook – Vol III, 1995.
Chairman
Board of Studies
AUE133-MODERN AUTOMOBILE ACCESSORIES
L
3
T
0
P
0
C
3
OBJECTIVES
• At the end of the course, the students will be able to apply and introduce
the modern developments in vehicle technology with their advancements,
comfort, and security. etc.,
UNIT –I
ENGINE MANAGEMENT SYSTEMS
9hrs
Electronically controlled SI and CI engine fuel injection systems, related hardware and
software.
Closed
loop
ignition
system.
Catalytic
converters
and
particulate traps.
UNIT –II
CHASSIS
9 hrs
Active suspension control, Pneumatic suspensions, Power train monitoring, safety viewsModern development in Chassis management of vehicles.
UNIT –III HEATING AND AIR CONDITIONING
9 hrs
Principles of vehicle air conditioning and heating-Automatic climate control systemModern trends in thermal management of vehicles-Influence of Electronics in thermal
management of vehicles.
UNIT –IV COMFORT AND CONVENIENCE
9 hrs
Adaptive cruise control, car entertainment, power windows, navigation system, adaptive
noise control, electric seats, driver information system. Power windows, power steering.
UNIT –V
SAFETY AND SECURITY SYSTEMS
9 hrs
Airbags, seat belt tightening system, collapsible and tiltable steering column, Anti theft
system, anti lock braking system, electronic stability control system/traction control
system, roll over protection system.
L: 45 T: 0
Total 45 Hrs
Text Book
1. Tom Denton - “Automobile Electrical and Electronic Systems” - Edward Arnold,
London
1995.
2. Eric Chowanietz - ‘Automotive Electronics’ - SAE International USA - 1995.
Reference book
1. Bosch Automotive Hand Book - 5th Edition - SAE Publication, USA - 2000.
Chairman
Board of Studies
AUE134-MICROPROCESSOR BASED SYSTEM DESIGN
L
3
T
0
P
C
3
OBJECTIVES
• At the end of the course, the students will be able to understand the need
of microcontroller 8 bits and 16 bits in a device/ instrument development.
• This course aims in developing the students with adequate knowledge
about microprocessors and its importance in Automobile sector.
UNIT –I
INTRODUCTION
9hrs
Need for microprocessor based system design – Design cycle – dimensions of the design
problem – Hardware design and software design – System integration.
UNIT –II
INPUT AND OUTPUT ALGORITHMIC PROCESSES
9 hrs
I/O control – I/O timing – Data buffering with FIFOS – Keyboards and switches –
Remote instrument control –Self test hardware. Keyboard parsing – Real time
programming – Self test algorithm. Multiplication and division algorithms.
UNIT –III TROUBLESHOOTING SYSTEMS – LOGIC ANALYSERS
9 hrs
Logic state analysers, Logic timing analysers, Display modes, Logic analysers features –
Signature analysis, Error detection using signature analysis. Development systems: Basic
features – software development aids –Development system architecture – Emulators,
system software – Assembler, linker, loader.
UNIT –IV 8086 /8088 BASED MULTIPROCESSING SYSTEM
9 hrs
Review of Architecture and Instruction Set of 8086 Processor Coprocessor configuration,
closely coupled configurations, loosely coupled configurations – 8087 coprocessor:
Architecture, Instruction set – 8089 I/O processor.
UNIT –V
SYSTEM DESIGN APPLICATIONS
9 hrs
LCR meter – PID controller – DC motor speed control – Digital weighing machine –
Temperature control – Controller for a washing machine.
L: 45 T: 0
Total 45 Hrs
Text Book& References
1. John B. Peatman, Microcomputer Based Interfacing, McGraw Hill, 1988.
2. Douglass V. Hall, Microprocessor and Interfacing, McGraw Hill, 1987.
3. Williams, G.B., Troubleshooting on Microprocessor Based Systems, Pergamon
Press 1984.
4. Yu-Cheng Liu and Glenn A. Gibson, Microcomputer systems, The 8086/8088
family, Second edition, Prentice Hall of India, 1990.
Chairman
Board of Studies
AUE135-FUNDAMENTALS OF NANOSCIENCE
L
3
T
0
P
C
3
OBJECTIVES
• To Study the basics of nano technology and nano science.
•
Understand interdisciplinary nature of this field.
•
Recognize that the rules of nano science are fundamentally different than
those we experience & Study the basic fabrication strategies of nano
science.
UNIT –I
INTRODUCTION
10hrs
Nanoscale Science and Technology- Implications for Physics, Chemistry, Biology
and Engineering-Classifications of nano structured materials- nano particles- quantum
dots, nanowires-ultra-thin films-multilayered materials. Length Scales involved and
effect on properties: Mechanical, Electronic, Optical, Magnetic and Thermal properties.
UNIT –II
PREPARATION METHODS
10hrs
Bottom-up Synthesis-Top-down Approach: Precipitation, Mechanical Milling, Colloidal
routes, Self-assembly, Vapour phase deposition, MOCVD, Sputtering, Evaporation,
Molecular Beam Epitaxy, Atomic Layer Epitaxy, MOMBE.
UNIT –III PATTERNING AND LITHOGRAPHY FOR NANOSCALE
5 hrs
DEVICES
Introduction to optical/UV electron beam and X-ray Lithography systems and processes,
Wet etching, dry (Plasma /reactive ion) etching, Etch resists-dip pen lithography.
UNIT –IV PREPARATION ENVIRONMENTS
10hrs
Clean rooms: specifications and design, air and water purity, requirements for particular
processes, Vibration free environments: Services and facilities required. Working
Practices, Sample cleaning, Chemical Purification, and Chemical and Biological
contamination, Safety Issues, Flammable and Toxic Hazards, Biohazards.
UNIT –V
CHARECTERISATION TECHNIQUES
10hrs
X-ray diffraction technique, Scanning Electron Microscopy - environmental techniques,
Transmission Electron Microscopy including high-resolution imaging, Surface Analysis
techniques- AFM, SPM, STM, SNOM, ESCA, SIMS-Nano indentation.
L: 45 T: 0
Total 45 Hrs
Text Book
1. A.S. Edelstein and R.C. Cammearata, eds., “Nanomaterials: Synthesis,
Properties and Applications”, Institute of Physics Publishing, Bristol and
Philadelphia, 1996.
2. N John Dinardo, “Nanoscale charecterisation of surfaces & Interfaces”, 2nd
Edition, Weinheim Cambridge, Wiley-VCH, 2000
References
1.G Timp (Editor), “Nanotechnology”, AIP press/Springer, 1999
2. Akhlesh Lakhtakia (Editor), “The Hand Book of Nano Technology,Nanometer
Structure”, Theory, Modeling and Simulations, Prentice-Hall of India (P) Ltd,
New Delhi, 2007.
Chairman
Board of Studies
AUE136-DESIGN OF JIGS FIXTURES AND PRESS TOOLS
(Approved Design Data Book Is Permitted)
L
3
T
0
P
C
3
OBJECTIVES
• To understand the principles, functions and design practices of
Jigs, Fixtures and dies for press working
•
To understand the Principles of jigs and fixtures design, locating
principles, locating elements and clamping Devices.
UNIT –I
PURPOSE TYPES AND FUNCTIONS OF JIGS AND
8hrs
FIXTURES
Tool design objectives - Production devices - Inspection devices - Materials used in Jigs
and Fixtures – Types of Jigs - Types of Fixtures-Mechanical actuation-pneumatic and
hydraulic
actuation-Analysis of clamping force-Tolerance and error analysis.
UNIT –II
JIGS
9hrs
Drill bushes –different types of jigs-plate latch, channel, box, post, angle plate, angular
post, turnover, pot jigs-Automatic drill jigs-Rack and pinion operated. Air operated Jigs
components. Design and development of Jigs for given components.
UNIT –III FIXTURES
9 hrs
General principles of boring, lathe, milling and broaching fixtures- Grinding, planning
and shaping fixtures, assembly, Inspection and welding fixtures- Modular fixtures.
Design and development of fixtures for given component
UNIT –IV PRESS WORKING TERMINOLOGIES AND ELEMENTS
10hrs
OF DIES AND STRIP LAY OUT
Press working terminology-Presses and press accessories-Computation of capacities and
tonnage requirements. Elements of progressive combination and compound dies: Die
block-die shoe. Bolster plate-punch plate-punch holder-guide pins and bushes – strippers
–knockouts-stops –pilots-Selection f standard die sets strip lay out-strip lay out
calculations
UNIT –V
DESIGN AND DEVELOPMENT OF DIES
9hrs
Design and development of progressive and compound dies for Blanking and piercing
operations. Bending dies – development of bending dies-forming and drawing diesDevelopment of drawing dies. Design considerations in forging, extrusion, casting and
plastic dies.
L: 45 T: 0
Total 45 Hrs
Text Book
1. Edward G Hoffman, Jigs & Fixture Design, Thomson – Delmar Learning,
Singapore 2004
2. Donaldson. C, Tool Design, Tata McGraw-Hill, 1986
References
1. Kempster, “Jigs & Fixtures Design, The English Language Book Society”,
1978
2. Joshi, P.H., “Jigs & Fixtures, Second Edition”, Tata McGraw-Hill Publishing
Company Limited, New Delhi 2004
3. Hiram E Grant, ‘ Jigs and Fixture’ Tata McGraw-Hill, New Delhi, 2003
3. Fundamentals of Tool Design, CEEE Edition, ASTME, 1983
4. PSG College of Technology, Coimbatore - Design Data Handbook.
Chairman
Board of Studies
AUE137-COMPUTATIONAL FLUID DYNAMICS
L
3
T
0
P
C
3
OBJECTIVES
• This course aims to introduce numerical modeling and its role in the field of heat
and
fluid flow;
• It will enable the students to understand the various discretisation methods
and solving methodologies and to create confidence to solve complex problems
in
the field of heat transfer and fluid dynamics.
UNIT –I
GOVERNING DIFFERENTIAL EQUATION AND FINITE
10hrs
DIFFERENCE METHOD
Classification, Initial and Boundary conditions – Initial and Boundary Value problems
– Finite difference method, Central, Forward, Backward difference, Uniform and
nonuniform
Grids, Numerical Errors, Grid Independence Test.
UNIT –II
CONDUCTION HEAT TRANSFER
10hrs
Steady one-dimensional conduction, two and three dimensional steady state
problems, Transient one-dimensional problem, Two-dimensional Transient Problems.
UNIT –III INCOMPRESSIBLE FLUID FLOW
10hrs
Governing Equations, Stream Function – Verticity method, Determination of pressure
for viscous flow, simple Procedure of Patankar and Spalding, Computation of
Boundary layer flow, finite difference approach.
UNIT –IV CONVECTION HEAT TRANSFER AND FEM
10hrs
Steady One-Dimensional and Two-Dimensional Convection – diffusion, Unsteady
one-dimensional convection – diffusion, Unsteady two-dimensional convection –
Diffusion – Introduction to finite element method – solution of steady heat conduction
by FEM – Incompressible flow – simulation by FEM.
UNIT –V
TURBULENCE MODELS
5hrs
Algebraic Models – One equation model, K – є Models, Standard and High and Low
Reynolds number models, Prediction of fluid flow and heat transfer using standard
codes.
L: 45 T: 0
Total 45 Hrs
Text Book
1. Muralidhar, K., and Sundararajan, T., “Computational Fluid Flow and Heat
Transfer”, Narosa Publishing House, New Delhi, 1995.
2. Ghoshdasdidar, P.S., “Computer Simulation of flow and heat transfer” Tata
McGraw-Hill Publishing Company Ltd., 1998.
3. Subas, V.Patankar “Numerical heat transfer fluid flow”, Hemisphere
Publishing
Corporation, 1980.
References
1. Taylor, C and Hughes, J.B. “Finite Element Programming of the Navier-Stokes
Equation”, Pineridge Press Limited, U.K., 1981.
2. Anderson, D.A., Tannehill, J.I., and Pletcher, R.H., “Computational fluid
Mechanics and Heat Transfer “ Hemisphere Publishing Corporation, New York,
USA,1984.
Chairman
Board of Studies
AUE138-COMPOSITE MATERIALS AND STRUCTURES
L
3
T
0
P
C
3
OBJECTIVES
• At the end of the course, the students will be able to understand the
fabrication, analysis and design of composite materials & structures.
UNIT –I
STRESS STRAIN RELATION
6hrs
Introduction- Advantages and application of composite materials, reinforcements and
matrices – Generalized Hooke’s Law – Elastic constants for anisotropic, orthotropic and
isotropic materials.
UNIT –II
METHODS OF ANALYSIS
12hrs
Micro mechanics – Mechanics of materials approach, elasticity approach to determine
material properties – Macro Mechanics – Stress-strain relations with respect to natural
axis, arbitrary axis – Determination of material properties. Experimental characterization
of lamina.
UNIT –III LAMINATED PLATES
12hrs
Governing differential equation for a general laminate, angle ply and cross ply laminates.
Failure criteria for composites.
UNIT –IV SANDWICH CONSTRUCTIONS
8 hrs
Basic design concepts of sandwich construction -Materials used for sandwich
construction - Failure modes of sandwich panels.
UNIT –V
FABRICATION PROCESS
7 hrs
Various Open and closed mould processes. Manufacture of fibers – Types of resins and
properties and applications – Netting analysis.
L: 45 T: 0
Total 45 Hrs
Text Book
1. Calcote, L R. “The Analysis of laminated Composite Structures”, Von –
Noastrand Reinhold Company, New York 1998.
2. Jones, R.M., “Mechanics of Composite Materials”, McGraw-Hill, Kogakusha
Ltd., Tokyo, 1985.
Reference book
1. Agarwal, B.D., and Broutman, L.J., “Analysis and Performance of Fibre
Composites”, John Wiley and sons. Inc., New York, 1995.
2. Lubin, G., “Handbook on Advanced Plastics and Fibre Glass”, Von Nostrand
Reinhold Co., New York, 1989.
Chairman
Board of Studies
AUE139-TRANSPORT MANAGEMENT
L
3
T
0
P
0
C
3
OBJECTIVES
• After completion of this course the students are able to manage a transport
fleet and their related activities for minimizing operational cost.
UNIT –I
INTRODUCTION
9hrs
Personnel management; objectives and functions of personnel management, psychology,
sociology and their relevance to organization, personality problems. Selection process:
job description, employment tests, interviewing, introduction to training objectives,
advantages, methods of training, training procedure, psychological tests.
UNIT –II
TRANSPORT SYSTEMS
9 hrs
Introduction to various transport systems. Advantages of motor transport. Principal
function of administrative, traffic, secretarial and engineering divisions. chain of
responsibility, forms of ownership by state, municipality, public body and private
undertakings
UNIT –III SCHEDULING AND FARE STRUCTURE
9 hrs
Principal features of operating costs for transport vehicles with examples of estimating
the costs. Fare structure and method of drawing up of a fare table. Various types of fare
collecting methods. Basic factors of bus scheduling. Problems on bus scheduling.
UNIT –IV MOTOR VEHICLE ACT
9 hrs
Traffic signs, fitness certificate, registration requirements, permit insurance,
constructional regulations, description of vehicle-tankers, tippers, delivery vans,
recovery vans, Power wagons and fire fighting vehicles. Spread over, running time, test
for competence to drive.
UNIT –V
MAINTENANCE
9 hrs
Preventive maintenance system in transport industry, tyre maintenance procedures.
Causes for uneven tyre wear; remedies, maintenance procedure for better fuel economy,
Design of bus depot layout
L: 45 T: 0
Total 45 Hrs
Text Book
1 .John Duke - Fleet Management – McGraw-Hill Co, USA -1984.
Reference book
1. Government Motor Vehicle Act – Eastern Book Company, Lucknow - 1989
2. Kitchin.L.D., - Bus Operation - Illiffee and Sons Co., London, III edition 1992
3. The motor vehicle Act 1939 - Ejaz Ahemad, Ashok law house, India - 1989.
Chairman
Board of Studies
AUE140-FLEET MANAGEMENT
L
3
T
0
P
0
C
3
OBJECTIVES
UNIT –I
MANAGEMENT TRAINING AND OPERATIONS
10hrs
Basic principles of supervising. Organising time and people. Job instruction training –
Training devices and techniques – Drive and mechanic hiring – Driver checklist – Lists
for driver and mechanic – Trip leasing – Vehicle operation and types of operation.
UNIT –II
VEHICLE MAINTENANCE
8hrs
Scheduled and unscheduled maintenance – Planning and scope – Evaluation of PMI
programme – Work scheduling – Overtime – Breakdown analysis – Control of repair
backlogs – Cost of options.
UNIT –III VEHICLE PARTS, SUPPLY MANAGEMENT AND
10hrs
BUDGET
Cost of inventory – Balancing inventory cost against downtime – Parts control – Bin tag
systems – Time management – Time record keeping – Budget activity – Capital
expenditures – Classification of vehicle expenses – Fleet management and data
processing – Data processing systems – Software. Models – Computer controlling of
fleet activity – Energy management.
UNIT –IV SCHEDULING AND FARE STRUCTURE
10hrs
Route planning – Scheduling of transport vehicles – Preparation of timetable, Costs, fare
structure – Methods of fare collection – Preparation of fare table.
UNIT –V
MOTOR VEHICLE ACT
7 hrs
Schedules and sections – Registration of motor vehicles – Licensing of drivers – Control
of permits – Limits of speed – traffic signs – Constructional regulations – Description of
goods carrier, delivery man, tanker, tipper, Municipal, fire fighting and break down
service vehicle.
L: 45 T: 0
Total 45 Hrs
Text Book
1. John Dolu, Fleet management, McGraw Hill Co., 1984.
Reference book
1. Government Publication, The Motor vehicle Act, 1989.
2. Kitchin,L.D., Bus operation, Illiffe and Sons Ltd., London, III Edition, 1992.
3. Kadiyali,L.R., Traffic engineering and Transport Planning.
Chairman
Board of Studies
AUE141-AUTOMOTIVE COMPONENT MANUFACTURING
L
3
T
0
P
0
C
3
UNIT –I
ENGINE COMPONENTS
10hrs
Casting of engine block - conventional and expendable pattern, machining of engine
blocks in machining center. Preparation of casting for cylinder heads, forging of crank
shaft, connecting rod and gudgeon pins, machining and heat treatment, casting of piston
by gravity casting, squeeze casting, machining and finishing, upset forging of valves,
heat treatment and surface improvement, cylinder liners and piston ring manufacturing.
Engine bearing manufacturing.
UNIT –II
TRANSMISSION COMPONENTS-I
8 hrs
Manufacturing of friction plates using conventional blanking and fine blanking.
Manufacture of composite friction lining, composite moulding of phenol formaldehyde
lining. Casting of gear box casing, precision forging of gears, gear hobbing, shaping,
powder metallurgy, orbital forming of spur, helical, and bevel gears, hypoid gears, heat
treatment and finishing.
UNIT –III TRANSMISSION COMPONENTS-II
8 hrs
Continuous casting of propeller shaft, extrusion of propeller shaft, extrusion dies, heat
treatment and surface hardening of propeller shaft, composite propeller shaft
manufacturing. Forging of rear axles, casting of rear axle casing, wheels, brake drum,
tyre manufacturing
UNIT –IV BODY COMPONENTS
10hrs
Introduction, thermoforming and hydro forming, press forming, welding of body panels,
resistance welding and other welding processes. Introduction, principle of injection
moulding, injection moulding of instrument panel, moulding of bumpers, reinforced
reaction injection moluding, tooling and tooling requirements, manufacture of
metal/polymer/metal panels. Adhesives and sealants, leaf spring manufacturing,
composite leaf springs, wrap forming of coil springs.
UNIT –V
SURFACE COATINGS AND ELECTRICAL
9 hrs
COMPONENTS:
Chemical vapour deposition, physical vapour deposition, sol-gel processing, spraying,
plating, paining in paint booth.
Starter motor, alternator, regulator, battery, lamps, control switches, electronic gauges.
L: 45 T: 0
Total 45 Hrs
Text Book
Philip F. Ostwald & Jairo Munuz, “Manufacturing Processes and Systems”, John
1
Wiley & Sons, New York, 1998.
Degarmo E.P., “Materials and process in Manufacturing”, Macmillan Publishing
2
Co., 1997.
Heldt P.M., “High Speed Combustion Engines”, Oxford IBH publishing Co.,
3
Calcutta, 1996.
Kalpakjian,“Manufacturing and Engineering and Technology”, Addison Wesloy,
4
Publishing Company, 1995.
5 Sanjay K Mazumdar, “Composites Manufacturing”, CRC Press, NY, 2003.
Chairman
Board of Studies