14-me_md

7/27/2019 14-ME_MD

1/16

486

SchemeforM.E.(Mechanical)withMachineDesignSubjects

(SemesterI)

Sr.No.

Subject

Cod

e

CoursePlanforEachWeek(Hrs)

Credits

Evaluation(Marks)

Total

Lectures

Laboratory

Tutorial

Test

1

Test 2

End

Semester

End

Semester

Weightage

(%)

Term

work

Seminar

1

StressAnalysis

ME6

11

3

--

2

4

20

20

100

60

3

0

20

150

2

FractureMechanics

ME6

12

3

_

2

4

20

20

100

60

3

0

20

150

3

Reliability

Engineeringand

Designof

Experiments

ME6

13

3

--

2

4

20

20

100

60

3

0

20

150

4

CAD

ME6

14

3

--

--

4

20

20

100

60

3

0

20

150

5

ElectiveI

ME6

15-

ME6

17

3

--

--

4

20

20

100

60

3

0

20

150

6

ComputationalLab

ME6

18

--

4

--

--

--

--

--

--

5

0

--

50

Total

15

04

06

20

100

100

---

300

200

100

800

NOTETest1,Test2and

endsemesterweightagemarkswillbeaddedandshownasthetheorymarksinthemarksheet.

Forpassing,Studentmustsecureminimum50%mark

sineachsubjectwithallhead

sofpassingtakentogetherandminimum45%

marksintheendsemesterexamination

ElectiveISubjects

Sr.No.

Code

Elective

1.

ME615

Robotics

2.

ME616

Tribiology

3.

ME617

ProductDesignEngineering

7/27/2019 14-ME_MD

2/16

487


(SemesterII)

Sr.No.

Subject

Cod

e


Credits

Evaluation(Marks)

Total

Lectures

Laboratory

Tutorial

Test

1

Test 2

End

Semester

End

Semester

Weightage

(%)

Term

work

Seminar

1

Optimization

Methods

ME6

61

3

--

2

4

20

20

100

60

3

0

20

150

2

AdvancedFinite

ElementMethods

ME6

62

3

_

2

4

20

20

100

60

3

0

20

150

3

NumericalMethods

inEngineering

ME6

63

3

--

--

4

20

20

100

60

3

0

20

150

4

Designof

Transmission

elements

ME6

64

3

--

2

4

20

20

100

60

3

0

20

150

5

ElectiveII

ME6

65-

ME6

67

3

--

--

4

20

20

100

60

3

0

20

150

6

ComputationalLab

ME6

68

--

4

--

--

--

--

--

--

5

0

--

50

Total

15

04

06

20

100

100

---

300

200

100

800

NOTETest1,Test2and

endsemesterweightagemarkswillbeaddedandshownasthetheorymarksinthemarksheet.

Forpassing,Studentmustsecureminimum50%mark

sineachsubjectwithallhead

sofpassingtakentogetherandminimum45%

marksintheendsemesterexamination

ElectiveIISubjects

Sr.No.

Code

Elective

1.

ME665

DynamicSystemModellingandControl

2.

ME666

PressureVesselDesign

3

ME667

KinematicsandMachinedynamics

7/27/2019 14-ME_MD

3/16

488


(SemesterIII)

Sr.No.

Subject

Cod

e


Credits

Evaluation(Marks)

Total

Lectures

LaboratoryT

utorial

Test

1

Test 2

End

Semester

End

Semester

Weightage

(%)

Rep

ort

Seminar

1

Seminaron

LiteratureReview

ME6

96

--

--

4

2

--

--

--

--

25*

50*

75

2

DissertationStage-I

Seminar

ME6

97

--

_

2

--

_

--

_

25*

50*

75

Total

--

--

4

4

--

--

---

--

50

100

150

*

Examinedbysupe

rvisorandatleastoneinternalexaminer

Forpassing,Studentmu

stsecureminimum50%marks

ineachsubjectwithallheadsofpassingtakentogether

(SemesterIV)

Sr.No.

Subject

Cod

e


Credits

Evaluation(Marks)

Total

Lectures

LaboratoryT

utorial

Test

1

Test2

End

Semester

End

Semester

Weightage

(%)

Rep

ort

Seminar

1

Dissertation

Stage-IISeminar

(Pre-Synopsis)

ME6

98

--

--

6

2

--

--

--

--

50*

50*

100

2

Dissertation&

Viva-Voce

ME6

99

--

_

4

--

_

--

_

50

**

100**

150

Total

--

--

6

6

--

--

---

--

10

0

150

250

*

Examinedbysupe

rvisorandatleastoneinternalexaminer

**

Examinedbysupe

rvisorandoneapprovedexternalexaminer

Forpassing,Studentmu

stsecureminimum50%marks

ineachsubjectwithallheadsofpassingtakentogether

7/27/2019 14-ME_MD

4/16

- 489 -

SEMESTER-I CLASS: M.E. (Mechanical) with Machine Design Subjects

CODE: CE611 SUBJECT: Stress Analysis

Period per week

(Each of 60 minutes)

Lecture 03

Laboratory --

Tutorial 02

Evaluation System

Duration (Hrs) Marks

In Semester Tests 01 20 X 02

End Semester Exam* 4 100

Termwork -- 30

Seminar -- 20

Total 150

Credits 04

* 60% weightage for end semester exam

Detailed Syllabus:

Sr.No. Description

1Stress-strain: Introduction, stress and strain tensors, strain displacement relation for plane stressand plain strain problems of elasticity, equation of equilibrium, compatibility condition, stress

function, simple two dimensional problems of elasticity. Analysis of torsion of circular and non

circular sections.

2 Load cells

3Strain Gauge Technique: strain measurement by resistance gauges types of strain gauges

.Equipment for indicating and recording strains.

4 Transducer and its application

Recommended Books:

1. Advances in Engineering Vol -4- Fatigue Design Handbook (SAE)2. Failure of materials I mechanical Design J.A.Collins

7/27/2019 14-ME_MD

5/16

- 490 -


CODE: CE612 SUBJECT: Fracture Mechanics

Period per week


Lecture 03

Laboratory --

Tutorial 02

Evaluation System




Termwork -- 30

Seminar -- 20

Total 150

Credits 04


Detailed Syllabus:

Sr.No. Description

1 Introduction- background, Kinds of failure, modes of failure, brittle and ductile fracture.2 Energy Consideration- Introduction, Griffith analysis, energy release rate

3 Stress in cracked bodies- Stress intensity factor, determination of SIF

4 J integral- Definition, scope, path independence

5 Test methods- introduction, KIc test technique, J testing, various test specimens

6 Fatigue- introduction, terminology, S-N curve, fracture due to fatigue.

7 Fracture mechanics design process.

Recommended Books:

1. Elements of fracture mechanics- P. Kumar2. Advanced Fracture Mechanics- Kenninen and Popellar3. Fracture and fatigue control in structures- Rolfe and Barsom

7/27/2019 14-ME_MD

6/16

- 491 -


CODE: CE613 SUBJECT: Reliability Engineering and Design of Experiments

Period per week


Lecture 03

Laboratory --

Tutorial 02

Evaluation System




Termwork -- 30

Seminar -- 20

Total 150

Credits 04


Detailed Syllabus:

Sr.No. Description

1

ENGINEERING EXPERIMENTS1. Design of Experiments: Engineering Research and experimentation in Design of

Products Measurement of physical parameters, selection of instruments, static and

dynamic characteristics of response, Measurements and statistical estimation of errors.Planning of experiments. Data analysis and reporting.

2. Basic of statistics, Hypothesis testing, Analysis of variance, Regression analysis, designof experiments-Complete and in complete block designs,

3. Factorial designs- Orthogonal Array designs.2

RELIABILITY ENGINEERING

Concepts of Reliability, Statistical models, of reliability Failure Mode and Effect,

Criticality analysis. Fault Tree Analysis, Design review and validation, Design forreliability.

Recommended Books:

1. Engineering Experimentation Ernest O. Doebelin2. Principles of Reliability - Pierusehka3. Practical Reliability Engineering Patrick D.T.O. conner

7/27/2019 14-ME_MD

7/16

- 492 -


CODE: CE614 SUBJECT: Numerical Methods in Engineering

Period per week


Lecture 03

Laboratory --

Tutorial 02

Evaluation System




Termwork -- 30

Seminar -- 20

Total 150

Credits 04


Detailed Syllabus:

Sr.No. Description

1 Programming fundamentals.2 Fundamentals of numerical methods.

3 Error analysis;

4 Curve fitting; Interpolation and extrapolation

5 Differentiation and integration

6 Solution of nonlinear algebraic and transcendental equations

7 Elements of matrix algebra

8 Solution of systems of linear equations, Eigenvalue problems, differential equations.

9 Computer oriented algorithms;

10 Numerical solution of different problems

Recommended Books:

1. J.H. Wilkinson, The Algebraic Eigenvalue Problem, Oxford University Press, 1965.2. K.E. Atkinson, An Introduction to Numerical Analysis, J. Wiley and Sons, 1989.3. G.E. Golub and C.F. Van Loan, Matrix Computations, Johns Hopkins University Press,

1989.

7/27/2019 14-ME_MD

8/16

- 493 -


CODE: CE615 SUBJECT: Elective I : Industrial Product Design

Period per week


Lecture 03

Laboratory --

Tutorial 02

Evaluation System




Termwork -- 30

Seminar -- 20

Total 150

Credits 04


Detailed Syllabus:

Sr.No. Description

1Introduction to basic elements & studies in form: Form balance, properties, size, shape, massspatial relationship and compositions in two & three dimensional space, radii manipulation &

form transition. Form elements in the concept of product design, modular concepts in design.

2Colour & colour Dynamics: Concept of colour, texture, colour as an element of design, Colourclassification and dimension of colour, hue, value & chroma relationship. Colour dynamics and

interaction of colours. Psychological use of colours.

3Role of Creativity in problem solving: Vertical and lateral thinking, brainstorming, synectics,

group working dynamics.

4Product design procedure: Market research, planning & positioning of Product, understanding

of problem areas & limitations, User group and their background. Analysis of ideas from

various angles of design methodologies to fit it to the user.

5Design for production: Process consideration in design, Design for easy assemblymaintenance, convenience, operation, and safety.

6

Material science and product detailing: Usage of thermo & Thermo set plastice, F.R.P., itapplication and properties. Injection, Blow, Compression Moulding, Extrusion, vacuumforming &F R P forming, Machining of plastics, Component designs, snap fits, gluing,welding, inserts in moulding, painting of plastics & metals. Design of productivity,

serviceability, safety and disposal.

7Product presentation: visual communication skills related to product and services. Type racelayouts, sketches for leaflets and instructions. Explodes views for service manuals, 2D & 3D

presentations, concept drawings, renderings, sketches, computer generated images.

8

Applied ergonomics in Product design: Gross human anatomy, anthropometry, environment

conditions, thermal, illumination, noise and vibration, Psychological aspects of designs,Analysis and organizations of control panels and displays, functions, display elements, dials

knobs, push buttons, handles and electronic displays. Visual, functional & economical

requirement of controls and display elements, Study of products graphics and textures.

Recommended Books:

1. Product design and process Engg Niebel B.W.2. Design of Industrial Exhaust systems - Al den, J L

7/27/2019 14-ME_MD

9/16

- 494 -


CODE: CE616 SUBJECT: Elective I : Advanced Finite Element Methods

Period per week


Lecture 03

Laboratory --

Tutorial 02

Evaluation System




Termwork -- 30

Seminar -- 20

Total 150

Credits 04


Detailed Syllabus:

Sr.No. Description

1 Solution of Boundary Value problems: Variational Method, Gelerkins Method, Least square aMethods

2One dimensional linear element:Division of region into elements The Linear Element, weight

Residual integral Evaluation of the Integral.

3Element Matrices: Direct stiffness Method, Properties of global stiffness Matrix, Analysis ofsimply supported beam

4 Two Dimensional Elements : Linear Triangular Elements, Rectangular Elements

5Two Dimensional Field equations: Coordinate Systems, Integral equations for the elementMatrices

6Heat transfer by conduction : One dimensional fins, two dimensional fins, Long and

convection Two Dimensional bodies.

7 Acoustical Vibrations: one dimensional vibration twodimensional vibrations

8FE Applications in Solid Mechanics : The axial force members, potential energy formulations.

The Truss Element, Beam element, plane frame element

9 Two dimensional Elasticity : The displacement functions, Element matrices

10 Element Shape Functions: Evaluating shape functions

11FEM Computations Solution Methods FEM Modeling and Preprocessing FEM Hardware and

Post processing Survey of some FE Software Systems

Recommended Books:

1. Finite Element Hand Book H. Kardestuncer2. FEA in Engineering Design- S Rajasekharan3. Introduction to Finit Elements in Engineering Tirupathi Rs. Chandrupatla4. Introduction to Finite Elements Methods Desai and Abel5. The FEM in Structural and Continuum Mechanics Zienkiwiez O.C. Vol. 1.26. Applied Finite Element Analysis Larry J. Segerlind

7/27/2019 14-ME_MD

10/16

- 495 -

SEMESTER-II CLASS: M.E. (Mechanical) with Machine Design Subjects

CODE: CE661 SUBJECT: Optimization for Engineering Design

Period per week


Lecture 03

Laboratory --

Tutorial 02

Evaluation System




Termwork -- 30

Seminar -- 20

Total 150

Credits 04


Detailed Syllabus:

Sr.No. Description

1Need for optimization and historical development classification and formulation ofoptimization problem, classical optimization methods, Calculas based methods, Enumerative

schemes, Rendom search algorithms, Evolutionary algorithms, Genetic algorithms,

Evolutionary programming, Evelution Strategies, Classifier Systems.

2Optimum design of mechanical elements: Purpose and applications of optimum design. Effects

of manufacturing errors, characteristics of meachnical systems, selection of optimumconfiguration, critical regions materials and dimensions,

3Formulation of primary and subsidiary design equations, Limit equations, Normal redundantand incompatible specifications. General techniques.

4Digital computers in optimum design. Exact and Interactive techniques, optimal design of

elements and systems, shafts gears, bearings, springs, high speed machinery, cams etc. Casestudies.

Recommended Books:

1. Optimization Theory and applications S.S.Rao2. Optimization for Engineering Design Deb & Kalyanmay3. Optimization Methods Mital K.V.4. Operations Research An Introduction H.A. Tata5. Statistical Distribution in Engineering Karl bury.6. Artificial Intelligence Through Simulated Evolution Fogel, Owence and walsh7. Conference proceedings-Annual conference on Evolutionary programming8. Published papers on genetic Algorithm available on Internet.

7/27/2019 14-ME_MD

11/16

- 496 -


CODE: CE662 SUBJECT: Machine Dynamics and Vibration

Period per week


Lecture 03

Laboratory --

Tutorial 02

Evaluation System




Termwork -- 30

Seminar -- 20

Total 150

Credits 04


Detailed Syllabus:

Sr.No. Description

1First and Second time derivatives of a vector fixed in moving reference frame-velocity andacceleration of a point fixed on rigid body- moving on rigid body. Relationship of time

derivatives of vector for different reference frames.

2 Inertia tensor, Ellipsoid of inertia

3Angular momentum and its time derivative for a particle and system of particles. Equation of

motion- fixed point rotation.

4Single d.o.f. damped, forced vibration. Multi d.o.f. free vibration-modes, nodes, Holzess

method.

5Multi d.o.f. vibration-matrix method, eigen values and vectors- natural frequencies and modes

modal analysis numerical method for solution. Lagrange equation for problem formulation.

Two d.o.f. system co ordinate coupling solution.

6 Vibration under periodic force use of Fourier series

7Vibration of continues systems- systems Transverse vibration of cable; bar, torsion vibration

of shaft Raylieghs method; Rayliegh ritz method.

8Vibration control balancing of reciprocating and rotating masses, controlling naturalfrequencies, vibration isolation, vibration absorber.

9Basics of non-linear vibration causes of non linearity formulation. Solution methods

iterative, graphical. Method of isoclines. Stability of equilibrium state and type of singularity.

Limits cycles.

10Basic vibration measuring setup-brief introduction to experimental modal analysis; spectrum

analysis vibration signature analysis.

Recommended Books:

1. Mechanical Vibration S. S. Rao2. Engineering Mechanics Statics & Dynamics I. H. Shames3. Non linear mechanical vibration Srinivasan4. Fundamentals of Mechanical vibration S.G. Graham Kelly

7/27/2019 14-ME_MD

12/16

- 497 -


CODE: CE663 SUBJECT: Tribiology

Period per week


Lecture 03

Laboratory --

Tutorial 02

Evaluation System




Termwork -- 30

Seminar -- 20

Total 150

Credits 04


Detailed Syllabus:

Sr.No. Description

1Hydrodynamic Lubrication and Bearing Design Basic concept, Hydrodynamic lubrication:design of plain fixed pad and tilting pad, slider bearing for steady and varying loads. Full and

Partial journal earings of infinite length, design of journal bearings for Steady loads and

varying loads. Introduction to design of hydrostatic and Aerostatic bearings, Thrust and radial.

2Elastohydrodynamic Lubrication Principles, Application to rolling contact bearings, cams and

gears.

3Lubricants Selection for general application and special application such as low temperatures

high temperature, extreme Pressure etc.

4Rolling Contact Bearings Static and dynamic load capacity, left rating, selection of rolling

contact bearing Different applications.

5

Friction and Wear Types of wear and basic mechanism of wear, Wear properties of friction and

antifriction metallic and non metallic materials, experimental techniques in evaluation ofmaterials. Design of mechanical components against wear. Design of friction surfaces used in

clutches and brakes.

Recommended Books:

1. Fluid Film Lubrication Theory & Design Andras Z. Szeri2. Advances in Industrial Tribology. J. Bhatia

7/27/2019 14-ME_MD

13/16

- 498 -


CODE: CE664 SUBJECT: Design of Pewer Transmission System

Period per week


Lecture 03

Laboratory --

Tutorial 02

Evaluation System




Termwork -- 30

Seminar -- 20

Total 150

Credits 04


Detailed Syllabus:

Sr.No. Description

1 Different types of prime movers, characteristics, limitation application and selection

2Transmission Systems Mechanical, Hydraulic, Pneumatic general description and

comparison

3Components like couplings, belts, chains, gears, brakes, clutches, shafts, bearing, housingpumps, valves etc used. Their limitations and use in specific applications. Typical example of

mechanical and hydraulic systems.

4Analysis for applications (automobile m/c Tool, Process engineering) and data for design-

Selection of components, Standard components use and selection.

5 Synthesis above and get complete solution.

6Analysis of the solution further with respect to vibration, wear, life of critical components,

reliability, assembly, maintenance and cost.

Recommended Books:1. Vickers Manual2. Industrial Hydraulic Rhoner3. Industrial Hydraulic John Pippenger4. Fundamentals of Pneumatics - Festo5. Fluid power applications A. Esposito

7/27/2019 14-ME_MD

14/16

- 499 -


CODE: CE665 SUBJECT: Elective I : System Modelling and Analysis

Period per week


Lecture 03

Laboratory --

Tutorial 02

Evaluation System




Termwork -- 30

Seminar -- 20

Total 150

Credits 04


Detailed Syllabus:

Sr.No. Description

1Mathematical modeling of mechanical elements inertia, stiffness and damper andmathematical modeling of mechanical systems- vehicles, articulated vehicle and other

mechanical systems

2Mathematical modeling of hydraulic elements and system- pneumatic elements and system.Transfer function representation, block diagram, State variable representation, matrix equation.

3 Numerical methods and some other solution methods.

4

System response and stability Static and dynamic stability of vehicles and articulated

vehicles, Transient response of first and second order system Steady state response stepresponse, ramp response, impulse response, sinusoidal response, input convolution integral,

stability of system.

Recommended Books:

1. Dynamics System Modelling & Analysis Hung V Vu & R.S. Esfandi2. Design of Control System- DSouzn3. Nagrath Gopal4. Francis Raven5. Vehicle Mechanics Ellis,6. Vehicle Dynamics Steed.7. Vehicle Dynamics Gellipsy

7/27/2019 14-ME_MD

15/16

- 500 -


CODE: CE666 SUBJECT: Elective I : Process Equipment Design

Period per week


Lecture 03

Laboratory --

Tutorial 02

Evaluation System




Termwork -- 30

Seminar -- 20

Total 150

Credits 04


Detailed Syllabus:

Sr.No. Description

1Types of vessels and factors influencing the design of vessels. Classification of vessels such astank, flat, bottomed and vertical cylinder tank, vertical cylindrical and horizontal vessels with

formed ends as well as spherical or modified spherical vessels.

2Criteria in vessel design. Elastic bending, plastic instability, cyclic loading stress reversals.Brittle rupture and creep rupture.

3Design of simple vessels of different configurations. General proportions and lay out. Vents

tappings and flanges.

4 Design of tall vertical vessels and supports.

5 Elementary heat exchanger design.

Recommended Books:

1. Process Equipment Design - Hasse, Herman C Rostoton. J.H.2. Process Equipment Design - Brownell, L. E.

7/27/2019 14-ME_MD

16/16

- 501 -

SEM-III

ME696 Seminar on Literature Review

The project work extends through the third and fourth semester. The project work

is defined based on the interest of the students to specialize in a particular area.

Students are expected to carry out independent research work on the chosen topic

and submit a thesis for evaluation? The work at this stage may involve review ofliterature, laboratory experimental work, development of software, development of

model, case study, field data collection and analysis etc. On completion of the work

the student shall prepare a report and will give a Seminar on the report.

ME697 Dissertation Seminars Stage I

Student shall finalize a theme, related to construction engineering and/or

management area for the dissertation work. Student shall prepare a report on the

theme outlining importance of the theme of the study, objective, scope of work,

methodology, and a review of literature published in the relevant area. The student

shall present seminars on this report.

SEM IV

ME698 Dissertation Seminars Stage II

Student shall study the problem of dissertation in the light of outcome of Stage I

and Stage II seminars. On completion of data collection, analysis, and inferencing

the student shall prepare an interim report and shall present a seminar on the work

done, before the submission of Synopsis to the University.

ME699 Dissertation and Viva Voce

On finalization of the dissertation student shall submit the dissertation report to the

University. The student shall have to appear for a Viva-voce examination for the

dissertation.

14-me_md

Documents