ENGINEERING SYLLABUS - MECHANICAL - SPECIALIZED
EXPOSURE ON FEATURE AND APPLICATION OF APPLICATION TOOLS »»»»SYLLABUS PROGRAM FOR ALLIED BRANCHES
- MECHATRONICS ENGINEERING
- MECHANICAL AND AUTOMATION ENGINEERING
- PRODUCTION ENGINEERING
- MECHANICAL ENGINEERING (SANDWICH)
- ROBOTICS AND AUTOMATION
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 ? |
| PRODUCTION ENGINEERING | MECHANICAL AND AUTOMATION ENGINEERING | MECHANICAL ENGINEERING (SANDWICH) | ROBOTICS AND AUTOMATION | MECHATRONICS ENGINEERING |
| SEMESTER IV | SEMESTER IV | SEMESTER III | N.A | SEMESTER III |
| CE6306 | CE6306 | CE6306 | N.A | CE6306 |
MAXIMUM TOPICS WILL TAKEN AS REFERENCE TO SPECIALIZED BRANCHES IN SUBJECT FAMILY
♦ SYLLABUS PROGRAM ♦ STRENGTH OF MATERIALS
SPECIALIZED BRANCH
TO UNDERSTAND THE STRESSES DEVELOPED IN BARS, COMPOUNDS BARS, BEAMS, SHAFTS, CYLINDERS AND SPHERES.
UPON COMPLETION OF THIS COURSE, THE STUDENTS CAN ABLE TO APPLY MATHEMATICAL KNOWLEDGE TO CALCULATE THE DEFORMATION BEHAVIOR OF SIMPLE STRUCTURES.
CRITICALLY ANALYSE PROBLEM AND SOLVE THE PROBLEMS RELATED TO MECHANICAL ELEMENTS AND ANALYSE THE DEFORMATION BEHAVIOR FOR DIFFERENT TYPES OF LOADS.
1. BANSAL, R.K., "STRENGTH OF MATERIALS", LAXMI PUBLICATIONS (P) LTD., 2007
2. JINDAL U.C., "STRENGTH OF MATERIALS", ASIAN BOOKS PVT. LTD., NEW DELHI, 2007
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1. EGOR. P.POPOV “ENGINEERING MECHANICS OF SOLIDS” PRENTICE HALL OF INDIA, NEW DELHI, 2001
2. SUBRAMANIAN R., "STRENGTH OF MATERIALS", OXFORD UNIVERSITY PRESS, OXFORD HIGHER EDUCATION SERIES, 2007.
3. HIBBELER, R.C., "MECHANICS OF MATERIALS", PEARSON EDUCATION, LOW PRICE EDITION, 2007
4. FERDINAND P. BEEN, RUSSELL JOHNSON, J.R. AND JOHN J. DEWOLE "MECHANICS OF MATERIALS", TATA
MCGRAW HILL 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 «
| PRODUCTION ENGINEERING | MECHANICAL AND AUTOMATION ENGINEERING | MECHANICAL ENGINEERING (SANDWICH) | ROBOTICS AND AUTOMATION | MECHATRONICS ENGINEERING |
| THEORY OF MACHINES | KINEMATICS AND DYNAMICS OF MACHINERY | KINEMATICS OF MACHINERY | KINEMATICS AND DYNAMICS OF MACHINERY | KINEMATICS OF MACHINERY |
| SEMESTER IV | SEMESTER IV | SEMESTER III | SEMESTER IV | SEMESTER III |
PR6402 | AN6402 | ME6401 | AN6402 | ME6401 |
MAXIMUM TOPICS WILL TAKEN AS REFERENCE TO SPECIALIZED BRANCHES IN SUBJECT FAMILY
♦ SYLLABUS PROGRAM ♦ THEORY OF MACHINES
SPECIALIZED BRANCH
TO UNDERSTAND THE BASIC CONCEPTS OF MECHANISMS AND MACHINERY
UPON COMPLETION OF THIS COURSE, THE STUDENTS CAN ABLE TO PREDICT THE FORCE ANALYSIS IN MECHANICAL SYSTEM AND RELATED VIBRATION ISSUES AND CAN ABLE TO SOLVE THE PROBLEM
1. BANSAL DR.R.K. “ THEORY OF MACHINES” LAXMI PUBLICATIONS (P) LTD., NEW DELHI 2001
2. RATTAN S.S.”THEORY OF MACHINES” TATA MCGRAW HILL PUBLISHING CO., NEW DELHI, 2002.
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1. RAO J.S.AND DUKKIPATI R.V. “MECHANISM AND MACHINE THEORY” SECOND EDITION, WILEY EASTERN LIMITED, 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, 1986.
♦ 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 «
| PRODUCTION ENGINEERING | MECHANICAL AND AUTOMATION ENGINEERING | MECHANICAL ENGINEERING (SANDWICH) | ROBOTICS AND AUTOMATION | MECHATRONICS ENGINEERING |
| FLUID POWER DRIVES AND CONTROL | APPLIED HYDRAULICS AND PNEUMATICS | HYDRAULICS AND PNEUMATICS | APPLIED HYDRAULICS AND PNEUMATICS | |
| SEMESTER IV | SEMESTER IV | ELECTIVE II | SEMESTER VI | |
PR6403 | MT6602 | MF6504 | MT6602 |
MAXIMUM TOPICS WILL TAKEN AS REFERENCE TO SPECIALIZED BRANCHES IN SUBJECT FAMILY
♦ SYLLABUS PROGRAM ♦ FLUID POWER DRIVES AND CONTROL
SPECIALIZED BRANCH
TO UNDERSTAND THE WORKING PRINCIPLE OF HYDRAULIC AND PNEUMATIC COMPONENTS AND ITS SELECTION
TO DESIGN HYDRAULIC AND PNEUMATIC CIRCUITS FOR DIFFERENT APPLICATIONS
IDENTIFY HYDRAULIC AND PNEUMATICS COMPONENTS. ABILITY TO DESIGN HYDRAULIC AND PNEUMATICS CIRCUITS.
1. ANTHONY ESPOSITO “FLUID POWER WITH APPLICATIONS”, 5TH EDITION, PEARSON EDUCATION 2003.
2. MAJUMDAR, “OIL HYDRAULICS: PRINCIPLES AND MAINTENANCE”, TATA MCGRAW HILL, 2004
3. MAJUMDAR, “PNEUMATIC SYSTEM: PRINCIPLES AND MAINTENANCE”, TATA MCGRAW HILL, 2004
4. SRINIVASAN. R., “HYDRAULIC AND PNEUMATIC CONTROLS”, VIJAY NICOLE IMPRINTS PRIVATE LIMITED, 2011.
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1. WILLIAM W.REAVES, "TECHNOLOGY OF FLUID POWER", DELMER PUBLISHERS, 1997.
2. PETOR ROHNER, "FLUID POWER LOGIC CIRCUIT", DESIGN MACMILLON PRESS LTD., 1990.
3. ANDREW PARR “HYDRAULICS & PNEUMATICS, JAICO PUBLISHING HOUSE, 2004
♦ 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 «
| PRODUCTION ENGINEERING | MECHANICAL AND AUTOMATION ENGINEERING | MECHANICAL ENGINEERING (SANDWICH) | ROBOTICS AND AUTOMATION | MECHATRONICS ENGINEERING |
| MACHINE ELEMENTS DESIGN | DESIGN OF MACHINE ELEMENTS | DESIGN OF MACHINE ELEMENTS | DESIGN OF MACHINE ELEMENTS | |
| SEMESTER V | SEMESTER V | SEMESTER – VI | SEMESTER V | |
PR6503 | ME6503 | ME6503 | ME6503 |
MAXIMUM TOPICS WILL TAKEN AS REFERENCE TO SPECIALIZED BRANCHES IN SUBJECT FAMILY
♦ SYLLABUS PROGRAM ♦ MACHINE ELEMENTS DESIGN
SPECIALIZED BRANCH
TO INTRODUCE STUDENTS TO THE DESIGN AND THEORY OF COMMON MACHINE ELEMENTS AND TO GIVE STUDENTS
EXPERIENCE IN SOLVING DESIGN PROBLEMS INVOLVING MACHINE ELEMENTS
UPON COMPLETION OF THIS COURSE, THE STUDENTS CAN ABLE TO SUCCESSFULLY DESIGN ENGINE COMPONENTS. THE STUDENTS CAN ABLE TO SUCCESSFULLY DESIGN TRANSMISSION COMPONENTS USED IN ENGINE AND MACHINES
1. JOSEPH EDWARD SHIGLEY, CHARLES R. MISCHKE “ MECHANICAL ENGINEERING DESIGN”, MCGRAW HILL, INTERNATIONAL EDITION, 1992
2. SHARMA. C.S. AND KAMLESH PUROHIT, “ DESIGN OF MACHINE ELEMENTS”, PRENTICE HALL OF INDIA PRIVATE LIMITED, 2003
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1. BHANDARI. V.B., “DESIGN OF MACHINE ELEMENTS”, TATA MCGRAW-HILL PUBLISHING COMPANY LIMITED, 2003.
2. ROBERT L.NORTON, “MACHIN DESIGN – AN INTEGRATED APPROACH”, PRENTICE HALL INTERNATIONAL EDITION, 2000.
♦ 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 «
| PRODUCTION ENGINEERING | MECHANICAL AND AUTOMATION ENGINEERING | MECHANICAL ENGINEERING (SANDWICH) | ROBOTICS AND AUTOMATION | MECHATRONICS ENGINEERING |
| COMPUTER AIDED PRODUCT DESIGN | COMPUTER AIDED DESIGN | COMPUTER AIDED DESIGN | ||
| SEMESTER VI | ELECTIVE VI | SEMESTER VII ELECTIVE III | ||
PR6601 | ME6501 | ME6501 |
MAXIMUM TOPICS WILL TAKEN AS REFERENCE TO SPECIALIZED BRANCHES IN SUBJECT FAMILY
♦ SYLLABUS PROGRAM ♦ COMPUTER AIDED PRODUCT DESIGN
SPECIALIZED BRANCH
TO INTRODUCE THE CONCEPTS AND APPLICATIONS OF CAD. TO INTRODUCE THE VARIOUS CONCEPTS AND TECHNIQUES USED FOR PRODUCT DESIGN AND TO DEVELOP PRODUCT DESIGN SKILLS.
UPON COMPLETION OF THIS COURSE, THE STUDENTS CAN ABLE TO APPLY GEOMETRIC MODELING PRINCIPLES TO DESIGN A COMPONENT AND ALSO ABLE TO MANAGE THE PRODUCT DATA AND APPLY PRODUCT LIFE CYCLE MANAGEMENT TO INDUSTRIAL COMPONENTS.
1. KEVIN OTTO, KRISTIN WOOD, “PRODUCT DESIGN”, PEARSON EDUCATION, 2000
2. IBRAHIM ZEID, “CAD/CAM THEORY AND PRACTICE”, TATA MCGRAW HILL, 1991.
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1. BIREN PRASAD, “CONCURRENT ENGINEERING FUNDAMENTALS VOL.11”, PRENTICE HALL, 1997.
2. JAMES G.BRALLA, “HANDBOOK OF PRODUCT DESIGN FOR MANUFACTURING”, MCGRAW HILL, 1994
3. DAVID F.ROGERS.J, ALAN ADAMS, “MATHEMATICAL ELEMENTS FOR COMPUTER GRAPHICS”, MCGRAW HILL, 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 «
| PRODUCTION ENGINEERING | MECHANICAL AND AUTOMATION ENGINEERING | MECHANICAL ENGINEERING (SANDWICH) | ROBOTICS AND AUTOMATION | MECHATRONICS ENGINEERING |
| DESIGN OF JIGS, FIXTURE AND PRESS TOOLS AND DRAWING | DESIGN OF JIGS, FIXTURES AND PRESS TOOLS | |||
| SEMESTER VI | SEMESTER VII (ELECTIVE III) | |||
PR6603 | ME6006 |
MAXIMUM TOPICS WILL TAKEN AS REFERENCE TO SPECIALIZED BRANCHES IN SUBJECT FAMILY
♦ SYLLABUS PROGRAM ♦ DESIGN OF JIGS, FIXTURE AND PRESS TOOLS AND DRAWING
SPECIALIZED BRANCH
TO INTRODUCE THE CONCEPTS OF VARIOUS TYPES OF JIGS, FIXTURES AND DIES
TO DESIGN AND DRAW JIG / FIXTURE/ DIE FOR A GIVEN COMPONENT
UPON COMPLETION OF THIS COURSE, THE STUDENTS CAN ABLE TO DESIGN JIGS, FIXTURES AND PRESS TOOLS AND DRAWING.
1. DONALDSON, B.H. LECAIN, GOOLD V.V., TOOL DESIGN, TMH EDITION, 1978.
2. KEMPSTER M.H.A., INTRODUCTION TO JIGS AND FIXTURES, ELBS EDITION, 1976
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1. HANDBOOK OF METAL FORMING, KURT LUNGE, MCGRAW HILL, PUB.CO. 1985.
2. PAQUIN, DIE DESIGN FUNDAMENTALS, INDUSTRIAL PRESS INC, NEW YORK, 1979
3. ASTME, FUNDAMENTALS OF TOOL DESIGN, PRENTICE HALL 1974
♦ 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 «
| PRODUCTION ENGINEERING | MECHANICAL AND AUTOMATION ENGINEERING | MECHANICAL ENGINEERING (SANDWICH) | ROBOTICS AND AUTOMATION | MECHATRONICS ENGINEERING |
| FINITE ELEMENT ANALYSIS IN MANUFACTURING ENGINEERING | FINITE ELEMENT ANALYSIS | FINITE ELEMENT ANALYSIS | ||
| SEMESTER VII | SEMESTER VI | SEMESTER – VII | ||
PR6701 | ME6603 | ME6603 |
VII. FINITE ELEMENT ANALYSIS IN MANUFACTURING ENGINEERING
MAXIMUM TOPICS WILL TAKEN AS REFERENCE TO SPECIALIZED BRANCHES IN SUBJECT FAMILY
♦ SYLLABUS PROGRAM ♦ FINITE ELEMENT ANALYSIS IN MANUFACTURING ENGINEERING
SPECIALIZED BRANCH
TO INTRODUCE THE CONCEPT OF FEM AND TO APPLY IN THE FIELD OF MANUFACTURING ENGINEERING
DEVELOP ELEMENT STIFFNESS MATRIX EQUATION FROM SPRING ELEMENTS
ASSEMBLE ELEMENT MATRIX EQUATION IN TO A GLOBAL MATRIX
ENFORCE BOUNDARY CONDITION AND FORCES ON THE SYSTEM.
SOLVE THE RESULTING SYSTEM AND INTERPRET RESULT.
DEVELOP THE CONCEPT OF LOCAL, GLOBAL COORDINATE SYSTEM AND THEIR TRANSFORMATION
1. CHANDRAPUTLA T.R., AND BELEGUNDU A.D., “INTRODUCTION OF FINITE ELEMENT IN ENGINEERING”, PRENTICE HALL OF INDIA, 1997.
2. REDDY.J.N., “AN INTRODUCTION TO FINITE ELEMENT METHOD” MCGRAW HILL, INTERNATIONAL STUDENT EDITION, 1993.
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1. RAO.S.S., “THE FINITE ELEMENT METHOD IN ENGINEERING”, PERGAMON PRESS, 1993.
2. SEGARLAND. L.J., “APPLIED FINITE ELEMENT ANALYSIS”, JOHN WILEY AND SONS, INC.
3. SESHU.P., “TEXT BOOK OF FINITE ELEMENT ANALYSIS”, PRENTICE HALL OF INDIA, 2003
4. RAJASEKARAN.S., “NUMERICAL METHODS FOR INITIAL AND BOUNDARY VALUE PROBLEMS”, WHEELER AND CO., PVT. LTD., 1987
5. LEWIS R.W., MORGAN K., THOMAS H.R. AND SEETHARAMU K.N., THE FINITE ELEMENT METHOD IN HEAT TRANSFER ANALYSIS, JOHN WILEY & SONS LTD., 1996.
♦ 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 «
| PRODUCTION ENGINEERING | MECHANICAL AND AUTOMATION ENGINEERING | MECHANICAL ENGINEERING (SANDWICH) | ROBOTICS AND AUTOMATION | MECHATRONICS ENGINEERING |
| PRODUCT DESIGN AND DEVELOPMENT | PRODUCT DESIGN AND DEVELOPMENT | |||
| ELECTIVE V | SEMESTER VI ELECTIVE I | |||
| IE6011 | IE6011 |
MAXIMUM TOPICS WILL TAKEN AS REFERENCE TO SPECIALIZED BRANCHES IN SUBJECT FAMILY
♦ SYLLABUS PROGRAM ♦ PRODUCT DESIGN AND DEVELOPMENT
SPECIALIZED BRANCH
- SEQUENCE OF PROCEDURE FOR PRODUCT DEVELOPMENT OR REVERSE ENGINEERING
- CONCEPT LITERATURE FROM BASIC SCIENCE AND INNOVATION LITERATURE
- CONCEPT MODELLING FROM MECHANISM DESIGN-LAYOUT-ELEMENT-ASSEMBLY-MULTIBODY
- KINEMATIC ANALYSIS-KINETOSTATIC ANALYSIS-COMPARING ANALYSIS REPORT OF EXISTING PRODUCT
- OPTIMIZING VALUE FOR SPECIFICATION ON KINEMATICS & KINETOSTATICS VALUE
- 2D/3D/BOM/PROCESS DRAWING FOR MANUFACTURING PROTOTYPE
- TESTING PROTOTYPE ON NOISE & VIBRATION, OTHER PARAMETERS
- ACCURACY ON GRADE WILL DECIDE APPLICATION & COST
- COMPARING AND OPTIMIZING TESTING VALUES ON UNCERTERNITY WITH ♦ MATHEMATICAL MODELLING ♦ MECHANISM DESIGN ♦ MATHEMATICAL TECHNOLOGY ♦ MULTIBODY DYNAMICS PROGRAMS OUTPUT
TO IMPART KNOWLEDGE ON PRINCIPLES AND PRACTICES OF PRODUCT DESIGN CONSIDERING THE CUSTOMER WANTS AND NEEDS.
UNIT I PRODUCT DEVELOPMENT PROCESS. UNIT II ESTABLISHING THE PRODUCT SPECIFICATIONS. UNIT III CONCEPT SELECTION. UNIT IV NEED FOR INDUSTRIAL DESIGN. UNIT V PRINCIPLES OF PROTOTYPING
1. KARAL, T.ULRICH STEVEN D.EPPINGER, PRODUCT DESIGN AND DEVELOPMENT, MCGRAW HILL, INTERNATIONAL EDITIONS, 2003.
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1. S.ROSENTHAL, EFFECTIVE PRODUCT DESIGN AND DEVELOPMENT, IRWIN, 1992.
2. CHARLES GEVIRTZ DEVELOPING NEW PRODUCTS WITH TQM, MCGRAW HILL INTERNATIONAL EDITIONS, 1994.
♦ 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 «
| MECHANICAL ENGINEERING | MECHANICAL AND AUTOMATION ENGINEERING | MECHANICAL ENGINEERING (SANDWICH) | ROBOTICS AND AUTOMATION | MECHATRONICS ENGINEERING |
| DYNAMICS OF MACHINES | DYNAMICS OF MACHINES | DYNAMICS OF MACHINES | ||
| SEMESTER – IV | ELECTIVE IV | SEMESTER IV | ||
ME9253 | ME6505 | ME6505 |
MAXIMUM TOPICS WILL TAKEN AS REFERENCE TO SPECIALIZED BRANCHES IN SUBJECT FAMILY
♦ SYLLABUS PROGRAM ♦ DYNAMICS OF MACHINES
♦ MECHANICAL ENGINEERING ♦ SPECIALIZED BRANCH
TO IMPART THE KNOWLEDGE ABOUT THE EFFECT OF FORCES ON THE MACHINES AND THE METHODS TO CONTROL THEM
(I) TO UNDERSTAND THE FORCE-MOTION RELATIONSHIP IN COMPONENTS SUBJECTED TO EXTERNAL FORCES.
(II) TO UNDERSTAND THE FORCE-MOTION ANALYSIS OF STANDARD MECHANISMS.
(III) TO UNDERSTAND THE UNDESIRABLE EFFECTS OF UNBALANCES RESULTING FROM PRESCRIBED MOTIONS IN MECHANISM.
(IV) TO UNDERSTAND THE EFFECT OF DYNAMICS OF UNDESIRABLE VIBRATIONS.
(V) TO UNDERSTAND THE PRINCIPLES IN MECHANISMS USED FOR GOVERNING OF MACHINES.
1. FORCEANALYSIS. 2. BALANCING. 3. FREE VIBRATION. 4. FORCED VIBRATION. 5. MECHANISM FOR CONTROL.
1. AMBEKAR A.G., ”MECHANISM AND MACHINE THEORY”, PRENTICE HALL OF INDIA, NEW DELHI, 2007.
2. SHIGLEY J.E., PENNOCK,G.R., UICKER J.J., “THEORY OF MACHINES AND MECHANISMS”, OXFORD UNIVERSITY PRESS,2003.
1. THOMAS BEVAN, “THEORY OF MACHINES”, CBS PUBLISHERS AND DISTRIBUTORS, 1984.
2. GHOSH A. AND MALLICK A.K., “THEORY OF MECHANISMS AND MACHINES”, AFFILIATED EAST-WEST PRESS PVT. LTD., NEW DELHI, 1988.
3. RAO J.S. AND DUKKIPATI R.V., “MECHANISM AND MACHINE THEORY”, WILEY-EASTERN LIMITED, NEW DELHI, 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 «
| MECHANICAL ENGINEERING | MECHANICAL AND AUTOMATION ENGINEERING | MECHANICAL ENGINEERING (SANDWICH) | ROBOTICS AND AUTOMATION | MECHATRONICS ENGINEERING |
| DESIGN OF TRANSMISSION SYSTEMS | DESIGN OF TRANSMISSION SYSTEMS | DESIGN OF TRANSMISSION SYSTEMS | ||
| SEMESTER – VI | SEMESTER – VI | SEMESTER – VII | ||
ME9353 | ME6601 | ME6601 |
MAXIMUM TOPICS WILL TAKEN AS REFERENCE TO SPECIALIZED BRANCHES IN SUBJECT FAMILY
♦ SYLLABUS PROGRAM ♦ DESIGN OF TRANSMISSION SYSTEMS
♦ MECHANICAL ENGINEERING ♦ SPECIALIZED BRANCH
TO LEARN THE DESIGN PRINCIPLES OF VARIOUS MECHANICAL POWER TRANSMISSION SYSTEMS.
♦ TO GAIN KNOWLEDGE ON THE PRINCIPLES AND PROCEDURE FOR THE DESIGN OF POWER TRANSMISSION COMPONENTS.
♦ TO UNDERSTAND THE STANDARD PROCEDURE AVAILABLE FOR DESIGN OF TRANSMISSION SYSTEMS
♦ TO LEARN TO USE STANDARD DATA AND CATALOGUES.
UNIT I DESIGN OF TRANSMISSION SYSTEMS FOR FLEXIBLE ELEMENTS. UNIT II SPUR GEARS AND PARALLEL AXIS HELICAL GEARS. UNIT III BEVEL, WORM GEARS AND CROSSED HELICAL GEARS. UNIT IV DESIGN OF GEAR BOXES. UNIT V DESIGN OF CAM, CLUTCHES AND BRAKES
1. SHIGLEY J.E AND MISCHKE C. R., “MECHANICAL ENGINEERING DESIGN”, SIXTH EDITION, TATA MCGRAW-HILL , 2003.
2. SUNDARARAJAMOORTHY T. V AND SHANMUGAM .N, "MACHINE DESIGN", ANURADHA PUBLICATIONS, CHENNAI, 2003.
1. MAITRA G.M. AND PRASAD L.V., “HAND BOOK OF MECHANICAL DESIGN”, II EDITION, TATA MCGRAW-HILL, 1985.
2. BHANDARI, V.B., “DESIGN OF MACHINE ELEMENTS”, TATA MCGRAW-HILL PUBLISHING COMPANY LTD., 1994.
3. PRABHU. T.J., “DESIGN OF TRANSMISSION ELEMENTS”, MANI OFFSET, CHENNAI, 2000,
4. HAMROCK B.J., JACOBSON B. AND SCHMID S.R., “FUNDAMENTALS OF MACHINE ELEMENTS”, TATA MCGRAW-HILL BOOK CO., 1999.
5. UGURAL A,C, "MECHANICAL DESIGN, AN INTEGRATED APPROACH", TATA MCGRAW-HILL , 2003.
2. IS 7443 : 2002, METHODS OF LOAD RATING OF WORM GEARS
3. IS 15151: 2002, BELT DRIVES – PULLEYS AND V-RIBBED BELTS FOR INDUSTRIAL APPLICATIONS – PH, PJ, PK, PL AND PM PROFILES : DIMENSIONS
4. IS 2122 : PART 1: 1973, CODE OF PRACTICE FOR SELECTION, STORAGE, INSTALLATION AND MAINTENANCE OF BELTING FOR POWER TRANSMISSION : PART 1 FLAT BELT DRIVES.
5. IS 2122: PART 2: 1991, CODE OF PRACTICE FOR SELECTION, STORAGE, INSTALLATION AND MAINTENANCE OF BELTING FOR POWER TRANSMISSION : PART 2: V-BELT DRIVES.
♦ 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 «
| MECHANICAL ENGINEERING | MECHANICAL AND AUTOMATION ENGINEERING | MECHANICAL ENGINEERING (SANDWICH) | ROBOTICS AND AUTOMATION | MECHATRONICS ENGINEERING |
| MECHANICAL VIBRATIONS & NOISE | VIBRATION AND NOISE CONTROL | VIBRATION AND NOISE ENGINEERING | ||
| ELECTIVES – I | VI SEMESTER ELECTIVE – I | ELECTIVE VI | ||
ME9024 | ME6020 | MS6012 |
MAXIMUM TOPICS WILL TAKEN AS REFERENCE TO SPECIALIZED BRANCHES IN SUBJECT FAMILY
♦ SYLLABUS PROGRAM ♦ MECHANICAL VIBRATIONS & NOISE
♦ MECHANICAL ENGINEERING ♦ SPECIALIZED BRANCH
TO IMPART THE KNOWLEDGE OF EFFECTS OF VIBRATIONS AND NOISE AND THE METHODS TO CONTROL THEM IN ENGINEERING APPLICATIONS.
♦ TO UNDERSTAND THE FUNDAMENTALS OF VIBRATION AND NOISE AND ITS PRACTICAL APPLICATIONS.
♦ TO UNDERSTAND THE WORKING PRINCIPLE AND OPERATIONS OF VARIOUS VIBRATIONS AND NOISE MEASURING INSTRUMENTS
♦ TO UNDERSTAND THE VARIOUS VIBRATION AND NOISE CONTROL STRATEGIES
UNIT I FUNDAMENTALS OF VIBRATION. UNIT II TWO DEGREE FREEDOM SYSTEM. UNIT III MULTI-DEGREE FREEDOM SYSTEM. UNIT IV EXPERIMENTAL VIBRATION ANALYSIS. UNIT V ENGINEERING NOISE AND ITS CONTROL.
1. AMBEKAR.A.G. “MECHANICAL VIBRATIONS AND NOISE ENGINEERING”, PRENTICE HALL OF INDIA, NEW DELHI,2006
2. RAO, S.S.,” MECHANICAL VIBRATIONS,” ADDISON WESLEY LONGMAN, 1995.
1. THOMSON, W.T. – “THEORY OF VIBRATION WITH APPLICATIONS”, CBS PUBLISHERS AND DISTRIBUTORS, NEW DELHI, 1990.
2. DEN HARTOG, J.P, “MECHANICAL VIBRATIONS,” DOVER PUBLICATIONS, 1990.
3. RAMAMURTI. V, “MECHANICAL VIBRATION PRACTICE WITH BASIC THEORY”, NAROSA, NEW DELHI, 2000.
♦ 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 «
| PRODUCTION ENGINEERING | MECHANICAL | MECHANICAL ENGINEERING (SANDWICH) | ROBOTICS AND AUTOMATION | MECHATRONICS ENGINEERING |
| DESIGN FOR MANUFACTURING | DESIGN FOR MANUFACTURE AND ASSEMBLY | |||
| ELECTIVES – I | SEMESTER – VIII | |||
| ME9025 | MS6801 |
MAXIMUM TOPICS WILL TAKEN AS REFERENCE TO SPECIALIZED BRANCHES IN SUBJECT FAMILY
♦ SYLLABUS PROGRAM ♦ DESIGN FOR MANUFACTURING
♦ MECHANICAL ENGINEERING ♦ SPECIALIZED BRANCH
TO GIVE EXPOSURE TO INTERRELATION BETWEEN DESIGN AND MANUFACTURE.
♦ TO UNDERSTAND THE PRINCIPLES OF DESIGN SUCH THAT THE MANUFACTURING OF THE PRODUCT IS POSSIBLE.
♦ TO EDUCATE STUDENTS ON VARIOUS DESIGN ASPECTS TO BE CONSIDERED FOR MANUFACTURING THE PRODUCTS USING DIFFERENT PROCESSES.
UNIT I DESIGN FOR MANUFACTURING APPROACH AND PROCESS. UNIT II GEOMETRIC ANALYSIS. UNIT III FORM DESIGN OF CASTINGS AND WELDMENTS. UNIT IV MECHANICAL ASSEMBLY. UNIT V TRUE POSITION THEORY.
1. HARRY PECK, "DESIGNING FOR MANUFACTURE", PITMAN PUBLICATIONS, 1983.
2. MATOUSEK, ENGINEERING DESIGN, - A SYSTEMATIC APPROACH" - BLACKIE & SON LTD., LONDON, 1974.
1. SPOTTS M.F., "DIMENSIONING AND TOLERANCE FOR QUANTITY PRODUCTION, PRENTICE HALL INC., 1983.
2. OLIVER R. WADE, "TOLERANCE CONTROL IN DESIGN AND MANUFACTURING", INDUSTRIAL PRESS INC. NEW YORK PUBLICATIONS, 1967.
3. JAMES G. BRALLA, "HAND BOOK OF PRODUCT DESIGN FOR MANUFACTURING" MCGRAW HILL PUBLICATIONS, 1983.
4. TRUCKS H.E., "DESIGN FOR ECONOMIC PRODUCTION", SOCIETY OF MANUFACTURING ENGINEERS, MICHIGAN, 2ND EDITION, 1987.
♦ 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 «
| PRODUCTION ENGINEERING | MECHANICAL AND AUTOMATION ENGINEERING | MECHANICAL ENGINEERING (SANDWICH) | ROBOTICS AND AUTOMATION | MECHATRONICS ENGINEERING |
| ADVANCED STRENGTH OF MATERIALS | ADVANCED STRENGTH OF MATERIALS | ADVANCED STRENGTH OF MATERIALS | ||
| VIII SEMESTER ELECTIVE – V | ELECTIVE VI | ELECTIVE – VI | ||
| CE6071 | CE6071 | CE6071 |
MAXIMUM TOPICS WILL TAKEN AS REFERENCE TO SPECIALIZED BRANCHES IN SUBJECT FAMILY
♦ SYLLABUS PROGRAM ♦ ADVANCED STRENGTH OF MATERIALS
SPECIALIZED BRANCH
TO ANALYSE THE STRESSES AND DEFORMATIONS THROUGH ADVANCED MATHEMATICAL MODELS.
UNIT I ANALYSIS OF PLATES
UNIT II THICK CYLINDERS AND SPHERES
UNIT III ROTATING DISCS
UNIT IV BEAMS ON ELASTIC FOUNDATION
UNIT V CURVED BEAMS AND CONTACT STRESSES
UPON COMPLETION OF THIS COURSE, THE STUDENTS CAN ABLE TO APPLY MATHEMATICAL KNOWLEDGE TO CALCULATE THE DEFORMATION BEHAVIOR OF SIMPLE STRUCTURES. CRITICALLY ANALYSE PROBLEM AND SOLVE THE PROBLEMS RELATED TO MECHANICAL ELEMENTS AND ANALYSE THE DEFORMATION BEHAVIOR FOR DIFFERENT TYPES OF LOADS.
1. BORESI A.P., SCHMIDT R.J., “ADVANCED MECHANICS OF MATERIALS”, JOHN WILEY AND SONS, SIXTHEDITION, 2003.
♦ 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 «
IX. COMPOSITE MATERIALS AND MECHANICS
PRODUCTION ENGINEERING
♦ SYLLABUS PROGRAM ♦ COMPOSITE MATERIALS AND MECHANICS
PRODUCTION ENGINEERING ♦ SEMESTER VII ELECTIVE III ♦ ENGINEERING CODE ME6007
- TO UNDERSTAND THE FUNDAMENTALS OF COMPOSITE MATERIAL STRENGTH AND ITS MECHANICAL BEHAVIOR
- THERMO-MECHANICAL BEHAVIOR AND STUDY OF RESIDUAL STRESSES IN LAMINATES DURING PROCESSING.
UPON COMPLETION OF THIS COURSE, THE STUDENTS CAN ABLE TO ANALYSE THE FIBER REINFORCED LAMINATE FOR OPTIMUM DESIGN
APPLY CLASSICAL LAMINATE THEORY TO STUDY AND ANALYSE THE RESIDUAL STRESSES IN LAMINATE.
1. GIBSON, R.F., "PRINCIPLES OF COMPOSITE MATERIAL MECHANICS", SECOND EDITION, MCGRAW-HILL, 1994,
CRC PRESS IN PROGRESS.
2. HYER, M.W., “STRESS ANALYSIS OF FIBER – REINFORCED COMPOSITE MATERIALS”, MCGRAW- HILL, 1998
---------------------------
1. ISSAC M. DANIEL AND ORI ISHAI, “ENGINEERING MECHANICS OF COMPOSITE MATERIALS”, OXFORD UNIVERSITY
PRESS-2006, FIRST INDIAN EDITION - 2007
2. MALLICK, P.K., FIBER, ”REINFORCED COMPOSITES: MATERIALS, MANUFACTURING AND DESIGN”, MANEEL
DEKKER INC, 1993.
3. HALPIN, J.C., “PRIMER ON COMPOSITE MATERIALS, ANALYSIS”, TECHOMIC PUBLISHING CO., 1984.
4. AGARWAL, B.D., AND BROUTMAN L.J., “ANALYSIS AND PERFORMANCE OF FIBER COMPOSITES”, JOHN WILEY
AND SONS, NEW YORK, 1990.
5. MALLICK, P.K. AND NEWMAN, S., (EDITION), “COMPOSITE MATERIALS TECHNOLOGY: PROCESSES AND
PROPERTIES”, HANSEN PUBLISHER, Munish, 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 «
PRODUCTION ENGINEERING
VIII. DESIGN OF MACHINE TOOL STRUCTURE
♦ SYLLABUS PROGRAM ♦ DESIGN OF MACHINE TOOL STRUCTURE
PRODUCTION ENGINEERING ♦ SEMESTER VII ELECTIVE III ♦ ENGINEERING CODE PR6004
TO UNDERSTAND DIFFERENT MACHINE TOOLS USED FOR MACHING.
TO UNDERSTAND THE DESIGN CRITERIA FOR MACHINE TOOL STRUCTURES.
TO KNOW THE DESIGNING OF SLIDEWAYS
TO UNDERSTAND THE VIBRATION IN THE MACHINE TOOL DURING OPERATION.
ABILITY TO DESIGN STRENGTH AND COMPONENTS OF MACHINE TOOLS.
1. SEN. G.C., AND A.BATTACHARYA, “PRINCIPLES OF MACHINE TOOLS”, NEW CENTRAL BOOK AGENCY, 1999
2. METHA. N.K., “MACHINE TOOL DESIGN AND NUMERICAL CONTROL”, TATA MCGRAW HILL PUBLISHING COMPANY, 1996
-------------------
1. MANFRED WEEK, “HAND BOOK OF MACHINE TOOLS – VOL1, VOL 2, VOL.3" JOHN WILEY & SONS, 1984.
2. ACHERKAN.N, “MACHINE TOOL DESIGN”, VOL 3, MIR PUBLISHERS, 1978
♦ 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 «
ROBOTICS AND AUTOMATION
I. MECHANICAL DESIGN
♦ SYLLABUS PROGRAM ♦ MECHANICAL DESIGN
ROBOTICS AND AUTOMATION ♦ SEMESTER – V ♦ ENGINEERING CODE RO6503
TO GAIN KNOWLEDGE IN THE DESIGN OF COMMON TYPES OF MACHINE ELEMENTS
ABILITY TO MAKE THE DESIGN OF TRANSMISSION SYSTEMS USING GEAR
UNDERSTANDING SHAFT AND COUPLING DESIGN PROCEDURE
ABILITY TO SELECT BELTS AND BEARINGS FOR GIVEN DESIGN REQUIREMENTS.
KNOWLEDGE OF FRICTION DRIVES.
1. ROBERT L MOTT, "MACHINE ELEMENTS IN MECHANICAL DESIGN", MACMILLAN PUBLISHING CO., LONDON, 1992.
2. SHIGLEY AND MISCHE, “MECHANICAL ENGINEERING DESIGN”, MCGRAW HILL, INC., NEW DELHI, 2000.
------------------
1. BANDARI V B, "DESIGN OF MACHINE ELEMENTS ", TATA MCGRAW HILL PUBLISHERS CO. LTD., NEW DELHI, 2003.
2. ROBERT L NORTAN, “MACHINE DESIGN-AN INTEGRATED APPROACH”, PEARSON PUBLISHERS, NEW DELHI, 2003.
3. MAITRA G M, “HANDBOOK OF GEAR DESIGN”, TATA MCGRAW HILL, NEW DELHI, 1998
4. FACULTY OF MECHANICAL ENGINEERING, PSG COLLEGE OF TECHNOLOGY, "DESIGN DATA BOOK", M/S. DPV PRINTERS, COIMBATORE, 2000
♦ 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 «
ROBOTICS AND AUTOMATION
II. PRECISION EQUIPMENT DESIGN
♦ SYLLABUS PROGRAM ♦ PRECISION EQUIPMENT DESIGN
ROBOTICS AND AUTOMATION ♦ SEMESTER – VII ♦ ENGINEERING CODE RO6701
TO IMPART KNOWLEDGE IN THE INCREASING QUALITY CONCEPTS OF PARTS, ACCURACY REQUIREMENT OF MACHINE TOOLS AND ALSO TO INTRODUCE LATEST TOPICS IN MANUFACTURING LIKE MICRO MACHINING AND SMART MATERIALS SO AS TO EQUIP THEM TO JOIN CORE ELECTRONIC MANUFACTURING INDUSTRIES.
UPON COMPLETION OF THIS COURSE THE STUDENT CAN ABLE TO USE OF QUALITY CONCEPTS PARTS, ACCURACY REQUIREMENTS OF MACHINE TOOLS AND USE OF LATEST MACHINING PROCESS SUCH AS MICRO MACHINING AND MICRO FABRICATION.
1. SAMIR MEKID, “INTRODUCTION TO PRECISION MACHINE DESIGN AND ERROR ASSESSMENT”, CRC-PRESS, TAYLOR AND FRANCIS GROUP, NEW YORK, 2009.
2. ALEXANDER H SLOCUM, “PRECISION MACHINE DESIGN”, PRENTICE HALL PUBLISHERS, 1992.
3. MOORE W R, “FOUNDATIONS OF MECHANICAL ACCURACY”, THE MOORE SPECIAL TOOL COMPANY, BRIDGEPORT, CONNECTICUT, 1970.
4. NAKAZAWA H, “PRINCIPLES OF PRECISION ENGINEERING”, OXFORD UNIVERSITY PRESS, OXFORD, 1994.
5. SMITH S.T, CHETWYND D.G, “FOUNDATIONS OF ULTRA – PRECISION MECHANISM DESIGN”, GORDON AND BREACH PUBLISHERS, SWITZERLAND, 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 «
MECHANICAL ENGINEERING (SANDWICH)
I. MANUFACTURE AND INSPECTION OF GEARS
♦ SYLLABUS PROGRAM ♦ MANUFACTURE AND INSPECTION OF GEARS
MECHANICAL ENGINEERING (SANDWICH) ♦ ELECTIVE I ♦ ENGINEERING CODE MS6001
TO KNOW THE DIFFERENT METHODS TO MAKE CONICAL AND CULINDRICAL GEAR.
SUITABLE SELECTION OF MATERIAL FOR GEAR AND PERFORM HEAT TREATMENT FOR HIS PROVING THE PROPERTIES
TO PERFORM IMPUTATION OF GEARS.
UPON COMPLETION OF THIS COURSE THE STUDENT CAN ABLE TO KNOW THE DIFFERENT METHODS TO MAKE CONICAL AND CYLINDRICAL GEAR AND SELECT MATERIAL FOR GEAR AND PERFORM HEAT TREATMENT FOR HIS PROVING THE PROPERTIES
1. WATSON, “MODERN GEAR PRODUCTION”, PERSMAN PRESS OXFORD, 1984.
2. HMT, “PRODUCTION TECHNOLOGY”, TATA MCGRAW HILL CO., NEW DELHI, 1992.
-------------------
1. SAE, “GEAR DESIGN MANUFACTURING INSPECTION MANUAL”, SAE, 1990.
2. WECK M., “HAND BOOK OF MACHINE TOOLS”, TECHNOLOGY AND SONS, 1984.
3. “GEAR TECHNOLOGY”, MAGAZINE – BACK VOLUMES.
♦ 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 «
MECHANICAL ENGINEERING (SANDWICH)
II. THEORY OF ELASTICITY AND PLASTICITY
♦ SYLLABUS PROGRAM ♦ THEORY OF ELASTICITY AND PLASTICITY
MECHANICAL ENGINEERING (SANDWICH) ♦ ELECTIVE II ♦ ENGINEERING CODE MS6004
TO UNDERSTAND AND USE THE THEORY FOR ELECTRIC AND PLASTIC BEHAVIORAL ANALYSIS OF METALLIC MATERIALS.
ABILITY TO DEFINE AND CALCULATE STRESS AND STRAIN UNDER VARIOUS LOADING CONDITIONS WITHIN ELASTIC LIMIT.
UNDERSTANDING CONSTITUTIVE EQUATIONS DEFINING ELASTIC PROPERTIES OF MATERIALS.
ABLE TO MODEL THE MATERIALS IN PLASTIC ZONE AND ABILITY TO CONDUCT PLASTIC STRAIN ANALYSIS.
1. TIMOSHENKO S P AND GOODIER J N, “THEORY OF ELASTICITY”, MCGRAW HILL INTERNATIONAL EDITIONS, THIRD EDITION , 1970.
2. SOKOLNIKOFF I S, “MATHEMATICAL THEORY OF ELASTICITY”, MCGRAW HILL INTERNATIONAL EDITIONS, SECOND EDITION, 1956.
3. JHONSON W AND MELLOR P B, “ENGINEERING PLASTICITY”, VAN NOSTRANT REINHOLD, 1983.
4. CHAKRABARTHY J., “THEORY OF PLASTICITY”, MCGRAW HILL CO, 1987.
--------------------------------------
1. BORESI A P, SCHMIDT R J AND SIDEBOTTOM O M, “ADVANCED MECHANICS OF MATERIALS”, JOHN WILEY AND SONS, INC., FIFTH EDITION, 1993.
2. DURELLI A J, PHILLIPS E A AND TSAO C H, “INTRODUCTION TO THE THEORETICAL AND EXPERIMENTAL ANALYSIS OF STRESS AND STRAIN”, MCGRAW HILL, NEW YORK, 1958.
3. CALLADINE C R, “PLASTICITY FOR ENGINEERS”, ELLIS HORWOOD, 1985.
4. DIETER G E, “MECHANICAL METALLURGY”, MCGRAW HILL, 1988.
5. DALLY J W AND RILEY W F, “EXPERIMENTAL STRESS ANALYSIS”, MCGRAW HILL INTERNATIONAL EDITIONS,THIRD EDITION, 1991.
♦ 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 «
MECHANICAL ENGINEERING (SANDWICH)
III. FAILURE ANALYSIS AND DESIGN
♦ SYLLABUS PROGRAM ♦ FAILURE ANALYSIS AND DESIGN
MECHANICAL ENGINEERING (SANDWICH) ♦ ELECTIVE V ♦ ENGINEERING CODE MS6009
TO INTRODUCE DIFFERENT FAILURE MECHANISMS AND ROLE OF MATERIALS AND DESIGN IN FAILURE
TO DEVELOP MATHEMATICAL MODEL FOR DIFFERENT MODES OF FRACTURE.
TO DEVELOP MATHEMATICAL MODEL FOR DYNAMIC FRACTURE.
TO INTRODUCE DIFFERENT TOOLS TO ANALYSE THE FRACTURE.
ABILITY TO CARRY OUT FAILURE ANALYSIS AND PREDICT THE ROOT CAUSE FOR THE FAILURE.
ABILITY TO SELECT SUITABLE MATERIAL FOR DESIGN.
ABILITY TO USE MATHEMATICAL KNOWLEDGE TO DESCRIBE THE DIFFERENT TYPES OF FRACTURE.
ABILITY TO USE DIFFERENT CHARACTERIZATION TOOLS FOR FAILURE ANALYSIS.
1. JOHN M BARSOOM AND STANLEY T ROLTE "FRACTURE AND FATIGUE CONTROL IN STRUCTURES", PRENTICE HALL, 1987.
2. ASM METALS HANDBOOK, "FAILURE ANALYSIS AND PREVENTION", ASM METALS PARK, OHIO, USA, VOL.10, TENTH EDITION, 1995.
3. MICHAEL F ASHBY, “MATERIAL SELECTION IN MECHANICAL DESIGN”, BUTTERWORTH – HEINEMANN, 1999.
4. ANDERSON T.L., FRACTURE MECHANICS:FUNDAMENTALS AND APPLICATIONS, THIRD EDITION, 2004
---------------------
1. SHIGLEY AND MISCHE, "MECHANICAL ENGINEERING DESIGN", MCGRAW HILL, 1992.
2. MAHMOUD M FARAG, “MATERIAL SELECTION FOR ENGINEERING DESIGN”, PRENTICE HALL, 1997.
3. FACULTY OF MECHANICAL ENGINEERING, PSG COLLEGE OF TECHNOLOGY, “DESIGN DATA BOOK”, DPV PRINTERS, 1993.
♦ 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 «
MECHANICAL ENGINEERING (SANDWICH)
IV. MACHINE ASSEMBLY DRAWING
♦ SYLLABUS PROGRAM ♦ MACHINE ASSEMBLY DRAWING
MECHANICAL ENGINEERING (SANDWICH) ♦ SEMESTER - III ♦ ENGINEERING CODE MS6302
USE OF DRAWING TOOLS TO SHOW THE ASSEMBLY VIEW OF THE COMPONENT AND MARK SUITABLE UNITS, FIT TOLERANCE DATA
UPON COMPLETION OF THIS COURSE, THE STUDENTS CAN ABLE TO APPLY THE DRAWING TOOLS TO SHOW THE ASSEMBLY VIEW OF THE COMPONENT AND MARK SUITABLE UNITS, FIT TOLERANCE DATA
1. GOPALAKRISHNA K R, "MACHINE DRAWING", SEVENTEENTH EDITION, SUBHAS STORES, BANGALORE, 2003.
2. CAD/CAM MANUAL, PSG COLLEGE OF TECHNOLOGY. COIMBATORE, 2002.
-----------------------
1. VARGHESE P I AND JOHN K C, "MACHINE DRAWING", JOVAST PUBLISHERS, THRISSUR, 2007.
2. SP:46-2003 – “ENGINEERING DRAWING PRACTICE FOR SCHOOLS AND COLLEGES", BUREAU OF INDIAN STANDARDS, NEW DELHI, 2003.
3. FACULTY OF MECHANICAL ENGINEERING, PSG COLLEGE OF TECHNOLOGY," DESIGN DATA BOOK", M/S.DPV PRINTERS, COIMBATORE,1993.
4. ASME Y 14.5M-1994, “DIMENSIONING AND TOLERANCING”, ASME, NEW YORK, 1995.
♦ 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 «
