ENGINEERING SYLLABUS MECHANICAL
DEMONSTRATION ON APPLICATION TOOLS
EXPOSURE ON FEATURE AND APPLICATION OF APPLICATION TOOLS »»»»SYLLABUS PROGRAM
- STRENGTH OF MATERIALS
- KINEMATICS AND THEORY OF MACHINES
- DESIGN OF MACHINE ELEMENTS
- COMPUTER AIDED DESIGN
- FINITE ELEMENT ANALYSIS
- DESIGN OF TRANSMISSION SYSTEMS
SAM ♦ MECHANISM DESIGN » KINEMATIC ANALYSIS » KINETO-STATICS ANALYSIS » REVERSE ENGINEERING ♦ MECHANISM INNOVATION DATA ♦ INPUT TO DYNAMIC & STATIC ANALYSIS
|  APM MULTIPHYSICS PHYSICAL PROCESSES |  APM FGA ANALYSIS OF LIQUIDS AND GASES |  APM FEM FINITE ELEMENT ANALYSIS |  APM CAM MECHANISM APM PLAIN BEARINGS |  APM STRUCTURE 3D STRUCTURAL ANALYSIS |  APM STUDIO FEA PRE/POST PROCESSOR |
|  APM TRANS DESIGNING TRANSMISSIONS |  APM SCREW SLIP, BALL & PLANETARY SCREW |  APM EMA ANALYSIS ELECTROMAGNETIC |  APM BEAR DESIGNING ROLLING BEARING |  APM DRIVE MOTION ARBITRARY STRUCTURE |  APM GRAPH GRAPHICS PARAMETRIC DRAWING |
MACHINE ELEMENTSPDM ANALYTICALSTRUCTURAL FINITE ELEMENT LITERATURE
|  KOMPAS-3D KOMPAS-GRAPHIC |  3D-MODEL RECOGNITION SYSTEM |  STANDARD PARTS BOM WIZARD UNWRAP |  STEEL STRUCTURES 3D. APM FEM |  PIPELINES 3D ANIMATION |  E CAD–KOMPAS-3D CONVERTER |
|  RENDERING APPLICATION |  TRACEPARTSONLINE MATERIALS LIBRARY |  ANALYSIS OF KINEMATIC & DYNAMIC |  KOMPAS-MACRO CABLE 3D |  MOULD AND DIE |  DIMENSIONAL CHAINCALCULATOR |
|  UM AUTOMOTIVE |  UM TRAIN |  UM LOCO |  UM LOCOMOTIVE |  UM FREIGHT WAGON |  CONTACT ADD ON |  UM TRACKED VEHICLE |  UM FEM ANALYSIS |
|  UM EXPERIMENTS |  UM BASE |  UM SUBSYSTEMS |  UM DRIVELINE |  UM MAGLEV |  UM TOOLS |  UM CAD | UM CONTROL UM MATLAB |
|  UM BALLAST |  UM 3D CONTACT |  UM RCF |  UM WHEEL/RAIL |  UM MONORAIL |  UM LOCO MODEL |  BRYANSK STATE | TECHNICAL UNIVERSITY |
|  SALTIRE MATHS ILLUSTRATIONS |  SALTIRE GEOMETRY EXPRESSIONS |  SALTIRE MECHANICAL EXPRESSIONS |  SALTIRE ANALYTIX |  SALTIRE ANALYTIX CAMS |  SALTIRE KNOWLEDGE BASE |
| ENGINEERING PROFESSIONAL  |  NAGANAKULAM KNOWLEDGE CENTRE | TRAINING FEATURE  |
|---|---|---|
♦  ISO/DIN/GOST/BIS STANDARD ♦ ACADEMIC INPUT → INDUSTRY OUTPUT ♦ TECHNICAL DATA » ENCYCLOPEDIA ♦ ACADEMIC TEXT BOOKS & TEST PAPERS | ♦  ↓ GAP ↓ ACADEMIC VS INDUSTRY ♦ CONCEPT » BASICS » DATABASE ♦ PRODUCTS USED INDUSTRIES ♦ REVERSING « PRODUCT « SCRAP | ♦ PRODUCT SPECIFICATION ? |
I. STRENGTH OF MATERIALS
♦ SYLLABUS PROGRAM ♦ STRENGTH OF MATERIALS
♦ MECHANICAL ENGINEERING ♦ SEMESTER IV (SECOND YEAR] ♦ ENGINEERING CODE PCC-ME 204
• TO UNDERSTAND THE NATURE OF STRESSES DEVELOPED IN SIMPLE GEOMETRIES SUCH AS BARS, CANTILEVERS, BEAMS, SHAFTS, CYLINDERS AND SPHERES FOR VARIOUS TYPES OF SIMPLE LOADS
• TO CALCULATE THE ELASTIC DEFORMATION OCCURRING IN VARIOUS SIMPLE GEOMETRIES FOR DIFFERENT TYPES OF LOADING
♦ DEFORMATION IN SOLIDS ♦ BEAMS AND TYPES TRANSVERSE LOADING ON BEAMS ♦ MOMENT OF INERTIA ABOUT AN AXIS AND POLAR MOMENT OF INERTIA ♦ TORSION, STRESSES AND DEFORMATION IN CIRCULAR AND HOLLOW SHAFTS ♦ AXIAL AND HOOP STRESSES IN CYLINDERS
• AFTER COMPLETING THIS COURSE, THE STUDENTS SHOULD BE ABLE TO RECOGNISE VARIOUS TYPES LOADS APPLIED ON MACHINE COMPONENTS OF SIMPLE GEOMETRY AND UNDERSTAND THE NATURE OF INTERNAL STRESSES THAT WILL DEVELOP WITHIN THE COMPONENTS
• THE STUDENTS WILL BE ABLE TO EVALUATE THE STRAINS AND DEFORMATION THAT WILL RESULT DUE TO THE ELASTIC STRESSES DEVELOPED WITHIN THE MATERIALS FOR SIMPLE TYPES OF LOADING
1. EGOR P. POPOV, ENGINEERING MECHANICS OF SOLIDS, PRENTICE HALL OF INDIA, NEW DELHI, 2001.
2. R. SUBRAMANIAN, STRENGTH OF MATERIALS, OXFORD UNIVERSITY PRESS, 2007.
3. FERDINAND P. BEEN, RUSSEL JOHNSON JR AND JOHN J. DEWOLE, MECHANICS OF MATERIALS, TATA MCGRAWHILL PUBLISHING CO. LTD., NEW DELHI 2005.
♦ APM WINMACHINE CAE/CAD/STRUCTURAL ANALYSIS/FEA/MACHINE ELEMENTS/PDM/DB ♦ VARICAD 2D/3D/PDM/BOM ♦ KOMPAS 3D 2D/3D/PDM/BOM ♦ SAM MECHANISM DESIGN ♦ SALTIRE SOFTWARE MATHEMATICAL TECHNOLOGY ♦ UNIVERSAL MECHANISM MULTIBODY DYNAMICS.
» FEATURE ON APPLICATION DATA WILL BE TAKEN FROM APPLICATION TOOLS ON EITHER SIDE OF ACADEMIC AND INDUSTRY «
II. KINEMATICS AND THEORY OF MACHINES
♦ SYLLABUS PROGRAM ♦ KINEMATICS AND THEORY OF MACHINES
♦ MECHANICAL ENGINEERING ♦ SEMESTER V (THIRD YEAR] ♦ ENGINEERING CODE PCC-ME 304
» TO UNDERSTAND THE KINEMATICS AND RIGID- BODY DYNAMICS OF KINEMATICALLY DRIVEN MACHINE COMPONENTS
» TO UNDERSTAND THE MOTION OF LINKED MECHANISMS IN TERMS OF THE DISPLACEMENT, VELOCITY AND ACCELERATION AT ANY POINT IN A RIGID LINK
» TO BE ABLE TO DESIGN SOME LINKAGE MECHANISMS AND CAM SYSTEMS TO GENERATE SPECIFIED OUTPUT MOTION
» TO UNDERSTAND THE KINEMATICS OF GEAR TRAINS
• CLASSIFICATION OF MECHANISMS. • DISPLACEMENT, VELOCITY AND ACCELERATION ANALYSIS OF SIMPLE MECHANISMS. • CLASSIFICATION OF CAMS AND FOLLOWERS. • INVOLUTE AND CYCLOIDAL GEAR PROFILES. • SURFACE CONTACTS
• AFTER COMPLETING THIS COURSE, THE STUDENTS CAN DESIGN VARIOUS TYPES OF LINKAGE MECHANISMS FOR OBTAINING SPECIFIC MOTION AND ANALYSE THEM FOR OPTIMAL FUNCTIONING.
1. THOMAS BEVAN, THEORY OF MACHINES, 3RD EDITION, CBS PUBLISHERS & DISTRIBUTORS, 2005.
2. CLEGHORN WL. , MECHANISMS OF MACHINES, OXFORD UNIVERSITY PRESS, 2005.
3. ROBERT L. NORTON, KINEMATICS AND DYNAMICS OF MACHINERY, TATA MCGRAWHILL, 2009.
4. GHOSH A. AND MALLICK A.K., THEORY OF MECHANISMS AND MACHINES, AFFILIATED EAST-WEST PVT. LTD, NEW DELHI, 1988.
♦ APM WINMACHINE CAE/CAD/STRUCTURAL ANALYSIS/FEA/MACHINE ELEMENTS/PDM/DB ♦ VARICAD 2D/3D/PDM/BOM ♦ KOMPAS 3D 2D/3D/PDM/BOM ♦ SAM MECHANISM DESIGN ♦ SALTIRE SOFTWARE MATHEMATICAL TECHNOLOGY ♦ UNIVERSAL MECHANISM MULTIBODY DYNAMICS.
» FEATURE ON APPLICATION DATA WILL BE TAKEN FROM APPLICATION TOOLS ON EITHER SIDE OF ACADEMIC AND INDUSTRY «
III. DESIGN OF MACHINE ELEMENTS
♦ SYLLABUS PROGRAM ♦ DESIGN OF MACHINE ELEMENTS
♦ MECHANICAL ENGINEERING ♦ SEMESTER VI (THIRD YEAR] ♦ ENGINEERING CODE PCC-ME 308
THIS COURSE SEEKS TO PROVIDE AN INTRODUCTION TO THE DESIGN OF MACHINE ELEMENTS COMMONLY ENCOUNTERED IN MECHANICAL ENGINEERING PRACTICE, THROUGH
1. A STRONG BACKGROUND IN MECHANICS OF MATERIALS BASED FAILURE CRITERIA UNDERPINNING THE SAFETY-CRITICAL DESIGN OF MACHINE COMPONENTS
2. AN UNDERSTANDING OF THE ORIGINS, NATURE AND APPLICABILITY OF EMPIRICAL DESIGN PRINCIPLES, BASED ON SAFETY CONSIDERATIONS
3. AN OVERVIEW OF CODES, STANDARDS AND DESIGN GUIDELINES FOR DIFFERENT ELEMENTS
4. AN APPRECIATION OF PARAMETER OPTIMIZATION AND DESIGN ITERATION
5. AN APPRECIATION OF THE RELATIONSHIPS BETWEEN COMPONENT LEVEL DESIGN AND OVERALL MACHINE SYSTEM DESIGN AND PERFORMANCE
♦ DESIGN CONSIDERATIONS ♦ LIMITS, FITS AND STANDARDIZATION ♦ REVIEW OF FAILURE THEORIES FOR STATIC AND DYNAMIC LOADING (INCLUDING FATIGUE FAILURE) ♦ DESIGN OF SHAFTS UNDER STATIC AND FATIGUE LOADINGS ♦ ANALYSIS AND DESIGN OF SLIDING AND ROLLING CONTACT BEARINGS ♦ DESIGN OF TRANSMISSION ELEMENTS SPUR, HELICAL, BEVEL AND WORM GEARS; BELT AND CHAIN DRIVES ♦ DESIGN OF SPRINGS HELICAL COMPRESSION, TENSION, TORSIONAL AND LEAF SPRINGS ♦ DESIGN OF JOINTS: THREADED FASTENERS PRELOADED BOLTS AND WELDED JOINTS ♦ ANALYSIS AND APPLICATIONS OF POWER SCREWS AND COUPLINGS ♦ ANALYSIS OF CLUTCHES AND BRAKES
• UPON COMPLETION OF THIS COURSE, STUDENTS WILL GET AN OVERVIEW OF THE DESIGN METHODOLOGIES EMPLOYED FOR THE DESIGN OF VARIOUS MACHINE COMPONENTS.
[1] SHIGLEY, J.E. AND MISCHKE, C.R., MECHANICAL ENGINEERING DESIGN, FIFTH EDITION, MCGRAW-HILL INTERNATIONAL; 1989.
[2] DEUTSCHMAN, D., MICHELS, W.J. AND WILSON, C.E., MACHINE DESIGN THEORY AND PRACTICE, MACMILLAN, 1992.
[3] JUVINAL, R.C., FUNDAMENTALS OF MACHINE COMPONENT DESIGN, JOHN WILEY, 1994.
[4] SPOTTES, M.F., DESIGN OF MACHINE ELEMENTS, PRENTICE-HALL INDIA, 1994.
[5] R. L. NORTON, MECHANICAL DESIGN – AN INTEGRATED APPROACH, PRENTICE HALL, 1998
♦ APM WINMACHINE CAE/CAD/STRUCTURAL ANALYSIS/FEA/MACHINE ELEMENTS/PDM/DB ♦ VARICAD 2D/3D/PDM/BOM ♦ KOMPAS 3D 2D/3D/PDM/BOM ♦ SAM MECHANISM DESIGN ♦ SALTIRE SOFTWARE MATHEMATICAL TECHNOLOGY ♦ UNIVERSAL MECHANISM MULTIBODY DYNAMICS.
» FEATURE ON APPLICATION DATA WILL BE TAKEN FROM APPLICATION TOOLS ON EITHER SIDE OF ACADEMIC AND INDUSTRY «
IV. COMPUTER AIDED DESIGN
♦ SYLLABUS PROGRAM ♦ COMPUTER AIDED DESIGN
♦ MECHANICAL ENGINEERING ♦ ELECTIVE SUBJECT ♦ ENGINEERING CODE PEC-MEL 325
TO PROVIDE AN OVERVIEW OF HOW COMPUTERS CAN BE UTILIZED IN MECHANICAL COMPONENT DESIGN
FUNDAMENTALS OF COMPUTER GRAPHICS. GEOMETRIC MODELING. VISUAL REALISM. ASSEMBLY OF PARTS.
• UPON COMPLETION OF THIS COURSE, THE STUDENTS CAN USE COMPUTER AND CAD SOFTWARE FOR MODELLING MECHANICAL COMPONENTS
1. IBRAHIM ZEID, MASTERING CAD CAM, TATA MCGRAW HILL PUBLISHING CO. 2007.
2. C. MCMOHAN AND J. BROWNE, CAD/CAM PRINCIPLES, II EDITION, PEARSON EDUCATION, 1999.
3. W. M. NEUMANN AND R.F. SPROUL, PRINCIPLES OF COMPUTER GRA[HICS, MCGRAW HILL, 1989.
4. D. HEARN AND M.P> BAKER, COMPUTER GRAPHICS, PRENTICE HALL INC., 1992.
♦ APM WINMACHINE CAE/CAD/STRUCTURAL ANALYSIS/FEA/MACHINE ELEMENTS/PDM/DB ♦ VARICAD 2D/3D/PDM/BOM ♦ KOMPAS 3D 2D/3D/PDM/BOM ♦ SAM MECHANISM DESIGN ♦ SALTIRE SOFTWARE MATHEMATICAL TECHNOLOGY ♦ UNIVERSAL MECHANISM MULTIBODY DYNAMICS.
» FEATURE ON APPLICATION DATA WILL BE TAKEN FROM APPLICATION TOOLS ON EITHER SIDE OF ACADEMIC AND INDUSTRY «
V. FINITE ELEMENT ANALYSIS
♦ SYLLABUS PROGRAM ♦ FINITE ELEMENT ANALYSIS
♦ MECHANICAL ENGINEERING ♦ ELECTIVE SUBJECT ♦ ENGINEERING CODE PEC-MEL 422
1. TO ILLUSTRATE THE PRINCIPLE OF MATHEMATICAL MODELING OF ENGINEERING PROBLEMS
2. TO INTRODUCE THE BASICS AND APPLICATION OF FINITE ELEMENT METHOD
HISTORICAL BACKGROUND, MATHEMATICAL MODELING OF FIELD PROBLEMS IN ENGINEERING. ONE DIMENSIONAL SECOND ORDER EQUATION. TWO DIMENSIONAL EQUATIONS. NATURAL COORDINATE SYSTEMS.
• UPON COMPLETION OF THE COURSE, STUDENTS WILL UNDERSTAND THE FEM FORMULATION AND ITS APPLICATION TO SIMPLE STRUCTURAL AND THERMAL PROBLEMS
1. REDDY J.N., AN INTRODUCTION TO FINITE ELEMENT METHOD, 3RD ED., TATA MCGRAW HILL, 2005.
2. SESHU P., TEXT BOOK OF FINITE ELEMENT ANALYSIS, PRENTICE HALL, NEW DELHI, 2007.
3. RAO S.S., THE FINITE ELEMENT METHOD IN ENGINEERING, 3RD ED., BUTTERWORTH HEINEMANN, 2004.
4. CHANDRUPATLA BELEGUNDU, INTRODUCTION TO FINITE ELEMENTS IN ENGINEERING, 3RD ED., PRENTICE HALL, 1990.
♦ APM WINMACHINE CAE/CAD/STRUCTURAL ANALYSIS/FEA/MACHINE ELEMENTS/PDM/DB ♦ VARICAD 2D/3D/PDM/BOM ♦ KOMPAS 3D 2D/3D/PDM/BOM ♦ SAM MECHANISM DESIGN ♦ SALTIRE SOFTWARE MATHEMATICAL TECHNOLOGY ♦ UNIVERSAL MECHANISM MULTIBODY DYNAMICS.
» FEATURE ON APPLICATION DATA WILL BE TAKEN FROM APPLICATION TOOLS ON EITHER SIDE OF ACADEMIC AND INDUSTRY «
VI. DESIGN OF TRANSMISSION SYSTEMS
♦ SYLLABUS PROGRAM ♦ DESIGN OF TRANSMISSION SYSTEMS
♦ MECHANICAL ENGINEERING ♦ ELECTIVE SUBJECT ♦ ENGINEERING CODE PEC-MEL 433
TO LEARN ABOUT THE DESIGN PROCEDURES FOR MECHANICAL POWER TRANSMISSION COMPONENTS
FLEXIBLE TRANSMISSION ELEMENTS. GEAR TRANSMISSION. STRAIGHT BEVEL GEAR. GEAR BOX. CAM DESIGN.
• UPON COMPLETING THIS COURSE THE STUDENTS WILL BE ABLE TO DESIGN TRANSMISSION SYSTEMS FOR ENGINES AND MACHINES.
1. SHIGLEY J., MISCHKE C., BUDYNAS R. AND NISBETT K., MECHANICAL ENGINEERING DESIGN, 8TH ED., TATA MCGRAW HILL, 2010.
2. JINDAL U.C., MACHINE DESIGN: DESIGN OF TRANSMISSION SYSTEM, DORLING KINDERSLEY, 2010.
3. MAITRA G. AND PRASAD L., HANDBOOK OF MECHANICAL DESIGN, 2ND ED., TATA MCGRAW HILL, 2001.
♦ APM WINMACHINE CAE/CAD/STRUCTURAL ANALYSIS/FEA/MACHINE ELEMENTS/PDM/DB ♦ VARICAD 2D/3D/PDM/BOM ♦ KOMPAS 3D 2D/3D/PDM/BOM ♦ SAM MECHANISM DESIGN ♦ SALTIRE SOFTWARE MATHEMATICAL TECHNOLOGY ♦ UNIVERSAL MECHANISM MULTIBODY DYNAMICS.
» FEATURE ON APPLICATION DATA WILL BE TAKEN FROM APPLICATION TOOLS ON EITHER SIDE OF ACADEMIC AND INDUSTRY «
