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DETAIL TEACHING SCHEME
SCHOOL OF ENGINEERING PROGRAM: M. Tech Machine Design (MECHANICAL
ENGINEERING)
ACADEMIC YEAR - 2018-19 SEMESTER – I (Batch: 2018-22)
DEFINATION OF ONE CREDIT :
1. Lecture (L): 1 hour / week / semester, 2. Practical (P): 2 hour / week / semester,
3. Tutorial (T): 2 hour / week / semester.
TEACHING SCHEME
Course
Code Course Name
Teaching Hours Credits
Audit
course CIE PSEE
Remarks
if any Theory Tutorial Practical
RM101 RESEARCH METHODOLOGY
3 0 0 3 N Y Y
MD113 COMPUTER AIDED DESIGN
3 0 2 4 N Y Y
MD121 DYNAMICS OF MECHANICAL SYSTEMS
3 0 2 4 N Y Y
MD122 ADVANCED MECHANICS OF SOLIDS
3 2 0 4 N Y Y
MD125 ADVANCED MACHINE DESIGN - I
3 0 2 4 N Y Y
MD922 PRODUCT DEVELOPMENT
3 0 2 4 N Y Y
PG101 SOFTWARE LAB - I 0 0 2 1 N N Y
Total 18 2 10 24
Total Hours 30
N- No CIE – Continuous internal evaluation
Y – Yes PSEE – Practical semester end examination including ITD, Dissertation, Industrial project, Industrial training etc.
Director Faculty of Technology
RK UNIVERSITY Rajkot
DETAIL TEACHING SCHEME
ELECTIVE - I
Course
Code Course Name
Teaching Hours
Credits Audit
course CIE PSEE
Remarks if
any Theory Tutorial Practical
MD922 PRODUCT
DEVELOPMENT 3 0 2 4 N Y Y
Offered Any
One from
Elective - I
MD923
PROTOTYPE
DEVELOPMENT
TECHNIQUES
3 0 2 4 N Y Y
MD924 DESIGN OF
EXPERIMENT 3 0 2 4 N Y Y
MD925
ADVANCED
MATERIALS IN
ENGINEERING
3 0 2 4 N Y Y
MD926 INDUSTRIAL
TRIBOLOGY 3 0 2 4 N Y Y
Date:
Director Faculty of Technology
RK UNIVERSITY Rajkot
SYLLABUS
Course Title RESEARCH METHODOLOGY
Course Code RM101
Course Credit
Lecture : 03
Practical : 00
Tutorial : 00
Total : 03
Course Learning Outcomes
At the end of the course, students will be able to:
Apply appropriate communication skills across settings, purposes, and audiences and Demonstrate knowledge of communication theory and application.
Analyze Use technology to communicate effectively in various settings and contexts and demonstrate appropriate and professional ethical behavior.
Demonstrate competency in critical thinking skills related to the analysis,
interpretation, and criticism of messages.
Define research and describe the research process and research methods
Develop testable hypotheses, differentiate research design and/or statistics,
evaluate aptness of research conclusions, and generalize them appropriately. Effectively use the library and its resources in gathering information related to the
learners' research project. Understand the process of sampling, the uses of questionnaires as data-gathering
instruments, how a survey is carried out in terms of process and method, the uses of surveys and to be able to capture their own data.
Detailed Syllabus
Sr. No.
Name of chapter & Details Hours
Allotted
Section – I
1
Concepts of Communications:
Definition, Forms of Communication, Objectives of Communication,
Characteristics of Communication, Process of Communication,
Communication, Roadblocks, Role of Verbal and Non-verbal Symbols in
Communication, Barriers to Effective Communication, Overcoming
Communication Barriers
5
2
Nonverbal communication:
Body Language, Gestures, Postures, Facial Expressions, Dress codes; the Cross Cultural Dimensions of Business Communication; Listening and Speaking, techniques of electing response, probing questions, Observation.
5
SYLLABUS
2018-19 M. TECH 1st SEM MACHINE DESIGN (2018-20 BATCH) Page 2
Business and social etiquettes; Listening Skills: Definition, Anatomy of poor Listening, Features of a good Listener, Role Play, Group Discussion and Interviews, Meetings: Ways and Means of conducting meetings effectively, Mock Meetings and Interviews
3
Reading and language skills
The reading process, purpose, different kinds of texts, reference material, scientific and technical texts, active and passive reading, strategies - vocabulary skills, eye reading and visual perception, prediction techniques, scanning skills, distinguishing facts and opinions, drawing inferences and conclusions, comprehension of technical material – scientific and technical texts, instructions and technical manuals, graphic information.
5
4
Referencing and Writing skills: Business letters: Enquiries, Circulars, Quotations, Orders, Acknowledgments, Executions, Complaints, Claims and adjustments, Collection letter, Banking correspondence, Agency correspondence, Sales letters, Job application letters - Bio data, Covering Letter, Interview Letters, Letter of Reference, Memos, minutes, Circulars & notices Types of Business Reports - Format, E-mail: How to make smart e-mail, Choice of vocabulary, coherence and cohesion, paragraph writing, organization reports by individual, Report by committee.
6
Total 21
Section – II
5
Introduction to Research and Research Design: Nature and scope of research, information based decision making and source of knowledge. The research process; basic approaches and terminologies used in research. Defining research question and framing of hypotheses, preparing a research plan, qualitative and quantitative research designs, Experimentation, Observational studies, Exploring secondary data.
5
6
Measurement and Scaling, Data Source and Data Collection:
Field research; primary data collection from observations, surveys and experimentation. Measurement and scaling; commonly used scales in reliability and validity of scales. Designing instrument for data collection; testing the instrument, data collection process, Sampling methods and procedures and sample size decisions.
5
7
Data Analysis and Presentation: Editing and coding of data, tabulation, graphic presentation of data, cross tabulation, Testing of hypotheses; type I and II errors, one tailed and two tailed tests of significance, Parametric and nonparametric tests for Univariate and Bivariate data. Tests of association; simple linear regression and other nonparametric tests.
6
8
Technical Writing:
Technical Proposal writing: Definition, Purpose, types, characteristics, Elements of structure, style and appearance, evaluation, exercises, Research report writing, Proposal writing, referencing, forms of reports, bibliography, etc. Research paper, Dissertation, and Thesis, Instruction
5
SYLLABUS
2018-19 M. TECH 1st SEM MACHINE DESIGN (2018-20 BATCH) Page 3
Instructional Method and Pedagogy:
Lectures will be conducted with the aid of multi-media projector, black board Transparencies etc.
Assignments and Exercise will be given to the students for each unit/topic and will be evaluated at regular interval.
Surprise tests/Quizzes/Seminar/Tutorials will be conducted.
Reference Books/Text book:
1. C. R. Kothari, “Research Methodology Methods & Techniques”, New Age International Publishers Latest Edition.
2. Meenakshi Raman, Sangeeta Sharma,” Technical Communications”, Oxford Latest Edition
3. D. K. Bhattacharyya,” Research Methodology”, Excel Books 2nd Edition
Manuals, Type of instructions, Writing Instructions, Technical Descriptions, Process descriptions, Guidelines for Writing Good Descriptions
Total 21
SYLLABUS
2018-19 M. TECH 1st SEM MACHINE DESIGN (2018-20 BATCH) Page 4
Course Title COMPUTER AIDED DESIGN
Course Code MD113
Course Credit
Lecture : 03
Practical : 01
Tutorial : 00
Total : 04
Course Learning Outcomes
After Successful completion of the above course, students will be able to:
Understand techniques of Graphics and Geometric modeling, and using their mathematical derivations.
Create a computer program for designing a machine component and various CAD
algorithms using any suitable language
Design a component or assembly using higher end CAD applications.
Detailed Syllabus
Sr. No.
Name of chapter & Details Hours Allotte
d
SECTION - I
1
Introduction:
Introduction: Need and Scope of Computer Aided Design, Elements of CAD, Essential requirements of CAD, Concepts of integrated CAD/CAM, Necessity & its importance, Engineering Applications
02
2
Computer graphics:
Principles of interactive computer graphics and overview of hardware available for use in CAD Scan conversion, Graphics Functions, Output primitives- Bresenham’s line drawing algorithm and Bresenham’s circle generating algorithm, World/device Coordinate Representation, Windowing and clipping, 2 D Geometric Transformations-Translation, Scaling, Shearing, Rotation & Reflection Matrix representation, Composite transformation, 3 D transformations
07
3
Geometric modeling: Types of mathematical representation of curves, Wire frame models wire frame entities, Parametric representation of synthetic curves, Hermit cubic splines, Bezier curves, B-splines rational curves. Representations of B-rep and C-rep, Feature based modelling. Visual Realism
04
4 Surface modeling:
Mathematical representation surfaces, Surface model, Surface entities 04
SYLLABUS
2018-19 M. TECH 1st SEM MACHINE DESIGN (2018-20 BATCH) Page 5
Instructional Method and Pedagogy:
Lectures will be conducted with the aid of multi-media projector, black board, OHP etc.
Assignments based on course content will be given to the students at the end of each unit/topic and will be evaluated at regular interval.
Surprise tests/Quizzes/Seminar/Tutorials will be conducted.
The course includes a laboratory, where students have an opportunity to build an appreciation for the concepts being taught in lectures.
Reference Books:
1. V. Ramamurti, “CAD in Mechanical Engineering”, - Tata McGraw Hill
2. Ibrahim Zeid,” CAD/CAM Theory & Practice”, McGraw Hill 3. Rogers D.F., “Mathematical Elements for Computer Graphics’, McGraw Hill 4. J. Flooney and P. Steadman, “Principles of CAD”, Affiliated East West Press 5. Rogers and Adams, “Procedural Elements for Computer Graphics by”, McGrawHill
Additional Resources
www.nptel.iitm.ac.in
surface representation, Parametric representation of surfaces, plane surface, rule surface, surface of revolution, Tabulated Cylinder.
5 Geometric modelling-3D: Solid modeling, Solid Representation, Boundary Representation (B-rep)
04
Total 21
SECTION – II
6 Database Techniques: Data structure, Database management, Product data exchange, CAD standards, Graphics database design, user interface.
07
7 Design and Analysis:
Parametric design and programming, Programming Levels, Macros, Animation and simulation, Mathematical modeling and methods of solution.
07
8
Computer aided design of machine components:
To develop algorithms, flowcharts and computer programs using C, C++, MATLAB Programming language for the design of machine components such as shafts, springs, couplings, clutches, brakes, levers, gears, belts.
07
Total 21
SYLLABUS
2018-19 M. TECH 1st SEM MACHINE DESIGN (2018-20 BATCH) Page 6
Course Title DYNAMICS OF MECHANICAL SYSTEMS
Course Code MD121
Course Credit
Lecture : 03
Practical : 01
Tutorial : 00
Total : 04
Course Learning Outcomes
After Successful completion of the above course, students will be able to:
Understand the fundamentals of vibration.
Recognition of the need for and an ability to engage in life-long learning.
Apply theory of vibration to engineering problems.
Understand the kinematics and dynamics of mechanical elements such as linkages,
gears, Gyroscopes and cams etc.
Demonstrate the effect of kinematics and dynamics using various apparatus
Detailed Syllabus
Sr. No.
Name of chapter & Details Hours Allotte
d
SECTION - I
1
Vibrations Forced vibration – Single DOF, 2DOF, Multi DOF vibration – Matrix method, Dunkerely’s method, Rayleigh’s method, Holzer’s method, Stodola Method, Eigenvalues and eigenvectors; Vibrations of continuous systems – bars, beams and plates; Flexural and torsional vibrations, classical and approximate methods of vibration analysis. Vibration isolation of single degree and multi DOF systems.
14
2
Gears and Gyroscopes:
Elements of different secondary space curves, conjugate action, general mechanism, noncircular sensors, dynamics of gears, Gyro dynamics, gyroscopic actions in machines.
07
Total 21
SECTION – II
SYLLABUS
2018-19 M. TECH 1st SEM MACHINE DESIGN (2018-20 BATCH) Page 7
Instructional Method and Pedagogy:
Lectures will be conducted with the aid of multi-media projector, black board, OHP etc.
Assignments based on course content will be given to the students at the end of each unit/topic and will be evaluated at regular interval.
Surprise tests/Quizzes/Seminar/Tutorials will be conducted.
The course includes a laboratory, where students have an opportunity to build an appreciation for the concepts being taught in lectures.
Reference Books:
1. S.S. Rao, “Mechanical Vibrations”, Wesley Publication Co. 2. A. Ghosh& A.K. Mallik, “Theory of Mechanism and Machines”, Affiliated East-West
Press 3. Haideri Farazdak, “Dynamics of Machinery”, Nirali Prakashan 4. S.S. Rao, “Mechanical Vibrations”, Wesley Publication Co. 5. S. Timoshenko, “Vibration Problems in Engineering”, Wiley Estern 6. C.M. Harris and C.E. Grede (Ed.), “Shock and Vibration Handbook”, McG Hill 7. Thomson W.T., “Theory of Vibration and Applications”, Prentice Hall 8. S.S. Ratan, “Theory of Machines”, Tata McGraw Hill
Additional Resources
www.nptel.iitm.ac.in
http://www.learnerstv.com/Free-Engineering-Video-lectures-ltv069-Page1.htm
http://www.learnerstv.com/Free-Engineering-Video-lectures-ltv833-Page1.htm
3
Analysis and Synthesis of Mechanism Basic concepts of kinematics and mechanisms-type, number and dimensions, kinematic pairs, chains and inversions, accuracy point and error analysis, velocity and acceleration analysis of different complex mechanism (I, II & III ), gross motion in the 4-bar mechanisms, static and dynamic force analysis of mechanisms. ; Synthesis of coordinated positions, synthesis of mechanism to trace a curve or path generation, synthesis for function generation. ; Dimensional synthesis, method of approach and optimization of a solution. ; Equivalent and conjugate linkages, four bar chains, copular curves, Robert’s Law chebycheve’s polynomials, path curvature Euler –Savary equation, Polode curvature. ; Planer and spatial problems, graphical and analytical methods, finite displacements, analytical design of 4-bar mechanisms for coordinated motion
14
4
Cam Dynamics:
Forces in rigid systems, Mathematical models, Response of a uniform motion undamped cam mechanism, Analytical method, Position error, Follower response by phase plane method, Jump and cross over shock, Johnson’s numerical analysis, Unstable spring surge and wind up.
07
Total 21
SYLLABUS
2018-19 M. TECH 1st SEM MACHINE DESIGN (2018-20 BATCH) Page 8
Course Title ADVANCED MECHANICS OF SOLIDS
Course Code MD122
Course Credit
Lecture : 03
Practical : 00
Tutorial : 01
Total : 04
Course Learning Outcomes
After Successful completion of the above course, students will be able to:
Understand the Concept of Theory of Plain Stress and Strains Induced Inside The
Structures Used For Various Engineering Applications
Solve the different theory of failure.
Analyze the unidirectional and laminated composite.
Design the object by using the concept of stress, strain analysis.
Detailed Syllabus
Sr. No.
Name of chapter & Details Hours Allotte
d
SECTION - I
1
Analysis of Stresses
Introduction to Tensor Analysis, Cauchy Stress Tensor and Cauchy’s Formula, Transformations of Stress Components and Principal Stresses, Stress Invariants, Maximum Shear Stress, First Piola–Kirchhoff Stress Tensor, Second Piola–Kirchhoff Stress Tensor, Equations of Equilibrium.
07
2
Analysis of Strains
Material Description, Spatial Description, Displacement Field, Deformation Gradient Tensor, Isochoric, Homogeneous, and Inhomogeneous Deformations, Cauchy–Green Deformation Tensors, Green Strain Tensor, Physical Interpretation of the Strain Components, Principal Strains, Infinitesimal Strain Tensor and Rotation Tensor, Rate of Deformation and Vorticity Tensors, Polar Decomposition Theorem, Compatibility Equations.
07
3
Linear Visco elastic behavior of materials
Response of polymers, glass transition temperature, creep testing, Analogies to spring and Dashpot models: - Kelvin-voigt element, Maxwell element.
04
SYLLABUS
2018-19 M. TECH 1st SEM MACHINE DESIGN (2018-20 BATCH) Page 9
Instructional Method and Pedagogy:
Lectures will be conducted with the aid of multi-media projector, black board, OHP etc.
Assignments based on course content will be given to the students at the end of each unit/topic and will be evaluated at regular interval.
Surprise tests/Quizzes/Seminar/Tutorials will be conducted.
Reference Books:
1. Lawrence E. Malvern, “Introduction to the mechanics of a continuous medium”, Prentice-Hall, Inc ,1969
2. Bhagwan D. Agarwal, Lawrence J. Broutman, K. Chandra shekhara”, Analysis and Performance of Fiber Composites”, 3rd Edition, john Wiley & sons Publication,
1. Timoshenko & J. N. Goodier,” Theory of Elasticity”, - Tata McGraw Hill. 2. Elasticity – Theory, Applications, and Numerics by Martin H. Sadd, Academic Press. 3. JN Reddy,” An Introduction to continuum mechanics with applications”, Cambridge
University Press 2008 4. Robert M. Jones”, Mechanics of composite materials” CRC Press; 2 Sub editions
(July 1, 1998).
Additional Resources
www.sciencedirect.com
http://nptel.ac.in/courses/112101095/
4
Introduction to Plasticity Metal Plasticity, Idealized stress-strain curves, Bauschinger effect, Levy-Mises Perfectly Plastic constitutive equations.
03
Total 21
SECTION - II
5
Behavior of Unidirectional Composites, Introduction to Composite Materials, Micromechanics and Prediction of Elastic Constants; Strength of Composites, Various Failure Modes of Composite Materials.
06
6
Analysis of an Orthotropic Lamina Stress–Strain Relations and Engineering Constants, Hooke’s Law and Stiffness and Compliance Matrices of an orthotropic lamina, Strengths of an Orthotropic Lamina.
05
7
Analysis of Laminated Composites Variation of Stresses and strains in a Laminate, Resultant Forces and Moments: Synthesis of Stiffness Matrix, Laminate Description System, Construction and Properties of Special Laminates.
06
8
Thermo elastic Stress and Strain Thermo elastic Stress – Strain relation, Equation of Equilibrium, Strain Displacement relation.
04
Total 21
SYLLABUS
2018-19 M. TECH 1st SEM MACHINE DESIGN (2018-20 BATCH) Page 10
Course Title ADVANCED MACHINE DESIGN - I
Course Code MD125
Course Credit
Lecture : 03
Practical : 01
Tutorial : 00
Total : 04
Course Objective
After Successful completion of the above course, students will be able to: Apply the systematic engineering design process including, problem definition,
information collection, concept generation & selection, and design configuration to design of mechanical systems and elements.
Identify and apply applicable theoretical methods of stress and strain determination for mechanical systems and elements under various external and internal loads.
Interpret design based on Fatigue & Creep with analytical analysis. Analyze the stresses produced in circular and non-circular rotating disk and
cylinders.
Detailed Syllabus
Sr. No.
Name of chapter & Details Hours Allotte
d
SECTION - I
1
General Design Procedure
Design Philosophies, DFA, DFM, Reliability, Concurrent Engineering, Aesthetics and Ergonomics, Brief review of principal stresses, Theories of Failure. Advanced Materials, Composite Materials, ceramics and super alloys. Mechanics of anisotropic materials.
3
2
Design based on Fatigue Design against fatigue, factors affecting fatigue behavior, Theoretical stress concentration factor and notch sensitivity factor. Fatigue under complex stresses, cumulative fatigue design. Linear damage (Miner’s Rule), Manson’s method.
12
3 Design based on Creep True stress and true strain, creep phenomenon, creep parameters, stress relaxation. Designing components subjected to creep.
6
Total 21
SECTION – II
SYLLABUS
2018-19 M. TECH 1st SEM MACHINE DESIGN (2018-20 BATCH) Page 11
Instructional Method and Pedagogy:
Lectures will be conducted with the aid of multi-media projector, black board, OHP etc.
Assignments based on course content will be given to the students at the end of each unit/topic and will be evaluated at regular interval.
Surprise tests/Quizzes/Seminar/Tutorials will be conducted.
The course includes a laboratory, where students have an opportunity to build an appreciation for the concepts being taught in lectures.
Reference Books:
1. Ali Fatemi, Ralph stephens, “Metal fatigue in Engg. “, John-wiley and sons publication.
2. Brownell & Young, “Process Equipment Design”. 3. Burr & Cheathaam, “Mechanical Analysis & Design”, PHI 4. Joseph E. Shigley, Charles R. Mischke, Richard G. Budynas, “Mechanical Engg.
Design”, Mcgraw Hill 5. “CMTI Handbook”, TMH publication. 6. Joshi, “Process Equipment Design”. 7. William Orthwin, “Machine Component Design”, Jayco Publication
Additional Resources
www.nptel.iitm.ac.in
4 Rotating Discs and Rotating Cylinder Discs with uniform thickness. Discs with uniform strength. Stresses in rotating cylinder with and without internal pressures.
6
5 Design of Circular and Non-Circular Plates with different loading conditions and supports
8
6 Fracture Mechanics: Griffith theory, Concept of SIF and KIC Crack Tip Plasticity. Determination of plastic zone. size and shape. Fatigue crack propagation and life estimation
7
Total
21
SYLLABUS
2018-19 M. TECH 1st SEM MACHINE DESIGN (2018-20 BATCH) Page 12
Course Title SOFTWARE LAB - I
Course Code PG101
Course Credit
Theory :00
Practical :01
Tutorial :00
Credits :01
Course Learning Outcomes:
After Successful completion of the above course, students will be able to:
Select an optimum programming method, command and process to identify,
formulate, and solve engineering problems.
Demonstrate the significance of MATLAB.
Apply knowledge of mathematics science and engineering to design and analyze
various mechanical engineering systems.
Use the techniques, skills and modern engineering tools necessary for design
engineering practice.
Detailed Syllabus
Sr. No.
Name of chapter & details Hours Allotte
d
SECTION-I
1. MATLAB Basics MATLAB Windows, Data Input and Output, Arithmetic Algebra, Symbolic Expressions, Arithmetic Managing Variables, Errors in Input, Vectors and Matrices.
6
2. Interacting with MATLAB The MATLAB Interface, The Desktop, Menu and Tool Bars, The Workspace, The Working Directory, Command Window, M-Files, Script M-Files, Function M-Files, Variables in Script M-Files, Variables in Function M-Files, Structure of Function M-Files, Loops, Diary Files.
8
3. MATLAB Programming Branching with if, switch, for, while etc., Open-Ended Loops, breaking from a Loop, Other Programming Commands, Sub functions, Commands for Parsing Input and Output, User Input and Screen Output, Evaluation, Debugging, interacting with the Operating System, Calling External Programs, File Input and Output.
8
4. MATLAB Graphics
Two-Dimensional Plots, Parametric Plots, Contour Plots and Implicit Plots, 6
SYLLABUS
2018-19 M. TECH 1st SEM MACHINE DESIGN (2018-20 BATCH) Page 13
Instructional method and Pedagogy:
At the commencement of the course, the course delivery pattern, course goal, prerequisite of the course etc. will be discussed.
Laboratories will be conducted with the aid of multi-media projector, black board, activity kit, design and analysis software MATLAB.
Assignments, based on course content, will be given to the students at the end of each unit/topic and will be evaluated at regular interval.
Attendance is compulsory in laboratory.
The course includes a laboratory, where students have an opportunity to build appreciations.
Reference Books:
1. Pratap Rudra p, Getting Started with MATLAB 7: A Quick Introduction for Scientists and Engineers, Oxford University Press New York
2. Raj Kumar Bansal, MATLAB and its Application in Engineering 3. Chapra Steven, Applied Numerical Methods: With Matlab for Engineers and
Scientists, Tata McGraw-Hill Publishing Company Limited New Delhi
Additional Resources
http://www.mathworks.com/help/pdf_doc/matlab/getstart.pdf
http://www.mathworks.com/help/matlab/
http://www.tutorialspoint.com/matlab/index.htm
Field Plots, Three-Dimensional Plots, Curves in Three-Dimensional Space, Surfaces in Three-Dimensional Space, Special Effects, Combining Figures in One Window Animations, Customizing and Manipulating Graphics, Change of Viewpoint, Change of Plot Style, Full-Fledged Customization, Quick Plot Editing in the Figure Window
Total hours 28