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2004 REGULATIONS FOR
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Semester I
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Semester II
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Semester III
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Semester IV
ELECTIVES - GENERAL
04O001 HUMAN VALUES AND PROFESSIONAL ETHICS
04P002 INDIAN CONSTITUTION AND SOCIETY
04P003 MICRO ELECTROMECHANICAL SYSTEMS
04P004 TOTAL QUALITY MANAGEMENT
04P005 INTELLECTUAL PROPERTY RIGHTS
04P006 OBJECT ORIENTED PROGRAMMING
ELECTIVES - MANUFACTURING ENGINEERING
04P007 PRECISION MACHINING AND MEASUREMENT 3 0 0 3
PRECISION MACHINING: Introduction to precision, micro and nano technology. (3) VLSI TECHNOLOGY: Introduction to silicon processing, wafer cleaning, diffusion and ion implantation, oxidation, photolithography, photo resist, spinning, resist strip, electron beam and X-ray lithography, Thin film deposition, physical vapour deposition, evaporation, sputtering, molecular beam epitaxy, chemical vapour deposition, Electro plating. (7) BULK MICROMACHINING: Wet etching, isotropic etching, anisotropic etching, dry etching, physical etching, reactive ion etching. (5) MEMS: Application, modelling, fabrication. (7) MICRO SENSORS: Classification of sensors, signal conversion, ideal characteristics of sensors, scaling laws, mechanical sensors, measurands, displacement sensors, pressure and flow sensors, accelerometers, actuators. (5) NANO-MEASURING SYSTEMS OF SUB-NANOMETER ACCURACY AND RESOLUTION: Inprocess or in situ measurement of position of processing point, post process and on line measurement of dimensional features and surface, mechanical measuring systems, optical measuring systems, electron beam measuring systems, pattern recognition and inspection systems. (6) APPLICATIONS OF NANO ENGINEERING: Nano-grating system, Nano-lithography, Photolithography, electron beam lithography, machining of soft metal mirrors with diamond turning, mirror grinding of ceramics, ultra-precision block gauges, balls for rolling bearings, fabrication of CCDs, VCR head assemblies, optical fibres. (6) FUTURE TRENDS IN NANO ENGINEERING: Development of intelligent products, Nano processing of materials for super high density ICs, nanomechanical parts, Micromachines. (3) Total 42 TEXT BOOKS: 1. Chang C.V and Sze S.M, "VLSI Technology", Tata McGraw Hill, New Delhi, April 2003. 2. Mark J Madou, "Fundamentals of Microfabrication", CRC Press, 2002. 3. Julian.W.Gardner, "Micro sensors, Principles and Applications", CRC Press, 1997. 4. Norio Taniguchi, "Nanotechnology", Oxford University Press, New York, 2003.
REFERENCES: 1. Jaeger R.C, "Introduction to Microelectronics Fabrication", Addison Wesley, England, 1988. 2. Szo S.M, "Semiconductors Sensors", McGraw Hill, New York, 1994. 3. Bhart Bhushan, “Handbook of Nano Technology”, Springer, Germany, 2004.
04P008 INTELLIGENT MANUFACTURING SYSTEMS 3 0 0 3
INTRODUCTION: Introduction to artificial intelligence, AI problems in manufacturing, modeling levels, criterion for success of artificial intelligence. (4) KNOWLEDGE REPRESENTATION: Introduction to knowledge representations and mapping, representing knowledge using rules, statistical reasoning, weak slot and filter structures, strong slot and filter structures. (6) SEARCH TECHNIQUES: Problem characteristics, issues in the design of search programs, fundamentals and types of heuristic search techniques. (5) KNOWLEDGE BASE SYSTEMS: Introduction to knowledge base systems, inference engine, knowledge base system for machines, machining optimization, knowledge acquisition, knowledge based design for automated assembly. (5) INTELLIGENT MANUFACTURING: Introduction to intelligent manufacturing, system operations, system architecture and data flow, system operations, system integration, human factors in intelligent manufacturing. (5) GROUP TECHNOLOGY: Group technology, models and algorithms, cluster analysis method, knowledge based systems for GT, models and algorithms for machine layout, knowledge based systems for machine layout, models and algorithms for scheduling. (6) NEURAL NETWORK: Introduction to neural networks, synaptic integration and neuron models, essential vector operators, back propagation algorithm, application of neural networks to process modelling control, neural network based feed forward active control systems, neural network application to tool condition monitoring in turning machine, condition monitoring in tapping, neural networks in robotics. (6) RECENT ADVANCES: Application of Artificial Neural Networks, Fuzzy logic and genetic algorithms in manufacturing, ANN for tool wear monitoring, Fuzzy control of machine tools. (5) Total 42 TEXT BOOK: 1. Andrew Kusiak, "Intelligent Manufacturing Systems", Prentice Hall, 1994. 2. Elaine Rich, "Artificial Intelligence", Tata McGraw Hill, New Delhi, 2003.
REFERENCES: 1. Mohammed Jamshidi, "Design and Implementation of Intelligent Manufacturing Systems", Prentice Hall, New Jersey,1995. 2. Mitsuogen Runwelding, "General Algorithms in Engineering Design", John Wiley, New York, 1997. 3. Ibrahim Zeid, "CAD/CAM Theory and Practice", McGraw Hill, New York, 2003.
04P009 COMPOSITE MATERIAL PROCESSING 3 0 0 3
New materials and the need for their development: Composite materials, classification, PMCs, MMCs and CMCs. (6) Matrix and its role: Different matrix materials, role of reinforcement, reinforcing materials and their manufacture. (6) PMCs: Different processing methods, hand layup, pultrusion, pressure and vacuum bag molding, mechanical properties, rule of mixtures, applications of PMCs. (6) MECHANICS OF PMCs: Evaluation of elastic moduli – strength of unidirectional lamina - strength of an orthotropic lamina - classical lamination theory - types of laminates - strength and stiffness of laminates. (8) MMCs: Dispersion strengthened, particulate strengthened, whisker reinforced and fibre reinforced MMCs-solid state and liquid state methods, pressure infiltration, HIP, CIP, semi-solid processing- properties and applications. (6) CMCs: Processing, improvement in fracture toughness, CVD, pressure infiltration, applications, characteristics of CMCs, reliability studies. (6)
Discussion on Carbon: Carbon composites - applications. (4) Total 42 TEXT BOOKS: 1. Matthews F.L and Rawlings R.D, "Composite Materials: Engineering and Science", Chapman & Hall, 2002. 2. Autar K. Kaw, "Mechanics of Composite Materials", CRC Press, NY, 1997.
REFERENCES: 1. Ronald F.Gibson, ”Principles of Composite Material Mechanics", McGraw Hill Book Co, New Delhi, 1994. 2. Robert M Jones, "Mechanics of Composite Materials", McGraw Hill Book Co, New Delhi, 1975. 3. Terry Richardson, "Composites - A Design Guide", Industrial Press Inc, NY, 1987. 4. Clyne T.W and Whithers P.J, "An introduction to metal matrix composites", Cambridge University Press, UK, 1993. 5. Minoru Taya and Arsenault, R.J, "Metal Matrix Composites-Thermo mechanical behaviour", Pergamon Press, London,1989. 6. Kishan.K.Chawla, "Composite Materials Science and Engineering", Springer Verlag, Germany, 1987.
04P010 PRODUCT DEVELOPMENT AND MANUFACTURE vide Mechanical Engineering 04M020
04P011 COMPUTER INTEGRATED MANUFACTURE vide Mechanical Engineering 04M021
04P012 DESIGN AND MANUFACTURE OF GEARS 3 0 0 3
INTRODUCTION TO GEARS: Types of gears - classification - application of gears, gear boxes - drawings for gears. (2) GEAR DESIGN: Review of gear fundamentals, interference, gear forces, determining dimensions of a spur gear pair. design of helical gears; parallel axis helical gear, normal and transverse planes, helix angles, equivalent number of teeth, determining dimension of helical gear pair. Design of bevel gears: Nomenclature, straight and spiral bevel gears, calculation of dimensions of straight and spiral bevel gear pair. Design of a pair of worm gears. (9) PRODUCTION OF CYLINDRICAL GEARS: Procedure of cutting gears and obtainable quality in milling, hobbing and gear shaping- cutter selection and work holding methods, setting calculations. Rack type gear shaping machine description and application. Internal gear cutting methods, CNC gear hobbing and gear shaping machines. (5) PRODUCITON OF CONICAL GEARS: Production of straight bevel gears by milling and bevel gear generator, duplex rotary cutter method – Gleason Reva cycle method - spiral and hybrid bevel gear generation. Description of machine, cutter and machine setting. (5) GEAR MATERIAL SELECTION AND HARDENDING METHODS: Properties of gear materials, non-metallic, non ferrous and plastic gears, selection of material for power transmission, high speed application, hardening by through hardening, case hardening, induction hardening, flame hardening, nitriding and tuftriding, hardening defects. (4) GEAR INSPECITON: Type of gear errors – Gear quality standards and allowable limits – tooth thickness, base tangent length measurement, pitch error, radial run out, involute profile error measurements methods and analysis- composite error measurement - computerized gear inspection – gear failure reasons and remedies. (6) MODERN GEAR PRODUCTION METHODS: Gear production by stamping, die casting, powder metal process, injection and compression moulding of plastic gears, cold and hot rolling. Mass production methods, shear speed shaping, gear broaching, Gleayson G-TRAC – gear generation methods. (6) Total 42 TEXT BOOKS: 1. Watson, “Modern Gear Production” Persman Press Oxford, 1984. 2. HMT, “Production Technology”, Tata McGraw Hill Co., New Delhi, 1992. 3. Maitra G.M, “Handbook of Gear Design”, Tata McGraw Hill, New Delhi, 1998
REFERENCES: 1. SAE, “Gear Design Manufacturing Inspection Manual”, SAE, 1990.
2. Weck M, “Hand Book
of Machine Tools”, Technology and Sons, 1984. (Vol.1)
04P013 PRODUCT DATA MANAGEMENT AND COLLABORATIVE PRODUCT COMMERCE 3 0 0 3
INTRODUCTION: Product development process and functions-present market constraints-need for collaboration use of internet class technologies and data transfer, variants of e-commerce. (6) PRODUCT LIFE CYCLE: Concept of product life cycle management and the benefits, value addition to customer. Lifecycle models, concepts on roles, users and project management, system administration, access control and its use in life cycle. (9) AUTOMATING BUSINESS PROCESS: Work flows, life cycle-work flow integration, product configuration, product structure. configuration management and change management. (11) CAD INTEGRATION IN PDM: Examples and tools used, use of product view. (4) SOFTWARE: PDM/CPC/PLM and their comparison. (6) Total 42TEXT BOOKS: 1. David S. Linthicum, “B2B Application Integration”, Addison Wesley, England, 2001. 2. Faisal Hogue, “E-Enterprise Business Models Architecture and Components”, Cambridge University Press, UK, 2000.
REFERENCES: 1. Danier Amor, “The E-Business Revolution”, Pearson Education Asia, 2000, New Delhi, PHI. 2. John. W. Gosnay and Christine M. Mears, “Business Intelligence with Cold Fusion”, Prentice Hall India, New Jersey,2000. 3. Alexis Leon, “Enterprise Resource Planning”, Tata McGraw Hill, New Delhi, 2002. 4. David Ferry and Larry Whipple, “Building an Intelligent e-business”, Prima Publishing, California, 2000 EEE Edition. 5. David Bedworth, Mark Hederson and Phillip Wolfe, “Computer Integrated Design and Manufacturing” McGraw-Hill Inc.,New York, 1991 6. Terry Quatrain, “Visual Modelling with Rational Rose and UML”, Addison – Westey, England, 1998. 7. Windchill R5.0 Reference manuals.
vide Mechanical Engineering 04M024
04P015/04A502 MANUFACTURE OF AUTOMOBILE COMPONENTS 3 0 0 3
MANUFACTURING OF ENGINE AND ENGINE COMPONENTS: Casting of engine block - conventional and expendable pattern, machining of engine blocks in machining center. Preparation of casting for cylinder heads, forging of crank shaft, connecting rod and gudgeon pins, machining and heat treatment, casting of piston by gravity casting, squeeze casting, machining and finishing, upset forging of valves, heat treatment and surface improvement, cylinder liners and piston ring manufacturing. (9) MANUFACTURE OF CLUTCH COMPONENTS: Manufacturing friction plates using conventional blanking and fine blanking. Manufacture of composite friction lining, composite moulding of phenol formaldehyde lining. (2) MANUFACTURE OF GEARBOX COMPONENTS: Casting of gear box casing, precision forging of gears, gear hobbing, shaping, powder metallurgy, orbital forming of spur, helical, and bevel gears, hypoid gears, heat treatment and finishing. (4) MANUFACTURE OF PROPELLER SHAFT: Continuous casting of propeller shaft, extrusion of propeller shaft, extrusion dies, heat treatment and surface hardening of propeller shaft, composite propeller shaft manufacturing. (3) Manufacture of Axles and Springs: Forging of front and rear axles, casting of rear axle casing, leaf spring manufacturing, composite leaf springs, wrap forming of coil springs. (3) Manufacture of body panels: Introduction, thermoforming and hydro forming, press forming, welding of body panels, resistance welding and other welding processes. (3) Manufacture of automotive plastic components: Introduction, principle of injection moulding, injection moulding of instrument panel, moulding of bumpers, tooling and tooling requirements, hand lay up process for making composite panels, manufacture of metal/polymer/metal panels. (5) Manufacture of engine components using ceramic matrix composites: Introduction, ceramic matrix piston rings, chemical vapour deposition, physical vapour deposition, cryogenic grinding of powders, sol-gel processing, advanced machining processes using RPT, CNC, etc. (5) Advanced machining process: Machining concepts using NC, generation of numerical control codes using Pro-E and IDEAS package, interfacing the CNC machine and manufacturing package. Introduction to rapid prototyping using fused deposition, laser sintering. (5) MISCELLANEOUS: Tyre and tube manufacturing, painting, painting booth, coach work. (3) Total 42 TEXT BOOKS: 1. Heldt P.M., “High Speed Combustion Engines”, Oxford IBH publishing Co., Calcutta, 1996. 2. Philip F. Ostwald & Jairo Munuz, “Manufacturing Processes and Systems”, John Wiley & Sons, New York, 1998.
REFERENCES: 1. Kalpakjian,“Manufacturing and Engineering and Technology”, Addison Wesloy, Publishing Company, 1995. 2. Degarmo E.P., “Materials and process in Manufacturing”, Macmillan Publishing Co., 1997.
04P016 LEAN MANUFACTURINGvide Mechanical Engineering 04M038
04P017 QUALITY ASSURANCE AND RELIABILITYvide Mechanical Engineering 04M401
ELECTIVES - INDUSTRIAL ENGINEERING
04P018 DESIGN OF MANUFACTURING SYSTEMS 3 0 0 3
INTRODUCTION: Manufacturing industries, types of production, functions of manufacturing, information processing in manufacturing, plant layout, production concepts and mathematical models. (5) GROUP TECHNOLOGY: Concepts, part classification and coding, cellular concept, part family and machine cell formation algorithms, ROC, DCA, PFA, CIA, hierarchical clustering algorithm, cellular layout, GT and FMS. (5) FLEXIBLE MANUFACTURING SYSTEMS: Concepts, classification of FMS, types of flexibility, impact on productivity, computer control systems, application and benefits, examples of FMS. (5) MATERIAL REQUIREMENT PLANNING: Introduction, parts explosion requirement, computing direct dependent demand, total requirements, requirements using submatrix structure, MRP system, software structure of MRP, database implementation of MRP, MRP vs MRP II (6) FACILITIES PLANNING: Introduction, models for single row machine layout problem, modified spanning tree algorithm, models for multi-row layout problem, quadratic assignment model, efficient models for the multi row layout problem, algorithms for the multi-row layout problems, penalty function algorithm. (6) SEQUENCING AND SCHEDULING: Introduction, job sequencing, 'n' jobs one machine problems, 'n' jobs two machine problems, 'n' jobs three machine problems, two jobs 'm' machine problems, 'n' jobs m machine problems, job shop scheduling. (5) ASSEMBLY LINE BALANCING: Definitions, mathematical formulations, Kilbridge, Wester, heuristic, Moodie, Young method, Halgeson, Birnie method, IUFH, rank and assign heuristic, probabilistic assembly line balancing, with normal distribution and distribution free. (5) DESIGNING AUTOMATED INDUSTRY: Information system in the automated factory – processing and assembly – material handling, inspection system, focused approach, non automated factories of the future, human factors, social impact – current trends in manufacturing (5) Total 42 TEXT BOOK: 1. Michael.P.Groover, "Automation, Production systems and CIM", PHI, New Delhi, 2001.
REFERENCES: 1. Elsayed A and Thomas.O.Bouchar, "Analysis and Control of Production Systems", Second Edition, Prentice Hall, NJ, 1994. 2. Andrew Kusiak, "Intelligent Manufacturing Systems", Prentice Hall, Engle Wood Cliffs, New Jersey, 1990.
04P019 INDUSTRIAL MARKETING AND MARKET RESEARCH vide Mechanical Engineering 04M049
04P020 HUMAN RESOURCES DEVELOPMENT AND MANAGEMENT 3 0 0 3
NATURE OF ORGANIZATION BEHAVIOUR: Meaning with contributions of Behavioural theorists, need, objectives, management and organisational behaviour, organisational goals. (7) INDIVIDUAL AND GROUP BEHAVIOUR: Objectives, personality, theories and determinants of personality, attitude, measurement of attitude, perception, objectives, perpetual processes and types, attribution theory, team management, communication, types, channels, barriers, steps for effective communication. (9) LEADERSHIP AND MOTIVATION: Leader ship qualities, importance of motivation, various techniques. (9) INTRODUCTION TO INDUSTRIAL PSYCHOLOGY: Meaning, scope, objectives, human mind, psycho analysis, thinking, sleep and dream, emotions and traits, learning curves, transfer of learning. (8) HUMAN FACTORS IN INDUSTRY: Human factors in engineering, ergonomics, psycho logical testing, types, performance appraisal, methods check list, graphic rating, behaviourally anchored rating scales, engineering psychology, introduction, time and motion analysis, man machine systems. (9) Total 42 TEXT BOOKS: 1. Ahuja K.K, "Industrial Psychology and Organisational Behaviour", Khanna Publishers, New Delhi, 1991. 2. Usma Sekaram, "Organisational Behaviour, Text and Cases", TMH, New Delhi, 1989.
REFERENCES: 1. Mullins.J.Laurie, "Management and Organizational Behaviour", Pitman Publishing, London, 1993. 2. Luthans Fred, "Organizational Behaviour", McGraw Hill, New York, 1985. 3. Blum and Naylar, "Industrial Psychology", Harper and Row Publishers, New York, 1956. 4. Schultz and Schultz, "Psychology and Industry Today", MacMillan Publishing Company, New York, 1990. 5. Prasad L.M, "Organizational Behaviour", Sultan Chand and Sons, New Delhi.
04P021 INDUSTRIAL SAFETY ENGINEERING 3 0 0 3
SAFETY SYSTEMS ANALYSIS: Definitions, safety systems; safety information system: basic concept, safety cost / benefit analysis. (5) HAZARD ANALYSIS: General hazard analysis: electrical, physical and chemical hazard, detailed hazard analysis. Cost effectiveness in hazard eliminations. Logical analysis: map method, tabular method, fault tree analysis and hazop studies. (5) SAFETY MANAGEMENT TECHNIQUES: Safety inspection, procedure, periodicity, checklist, report forms. Planning for safety and productivity, safety sampling, safety audit, safety survey, job safety analysis, damage control and disaster control (6) ACCIDENT PREVENTION: Accident analysis, safety training and education, communication, safety performance analysis. Personal protective equipment testing, usage. (5) SAFETY IN MATERIAL HANDLING: Selection and maintenance of common elements, equipments used, ropes, chains, slings, hooks, clamps, standard checking and testing procedure. Conveyor systems; belt, roller chain and elevator and lifts, industrial hoists, mobile crane forklift operation maintenance and checking procedure.. (6) FIRE PROTECTION SYSTEM: Chemistry of fire, water sprinkler, fire hydrant, alarm and detection system. Suppression system: CO2 system, foam system, DCP system, halon system, portable extinguisher. (5) SAFETY IN MACHINE OPERATION: Design for safety, lock out system, work permit system, safety in use of power press. Safety in foundry, forging, welding, hot working and cold working, electroplating and boiler operation. (5) SAFETY AND LAW: Provisions in factory act for safety, explosive act, workmen compensation act, compensation calculation. Boiler act and pollution control act. (5) Total 42 TEXT BOOKS: 1. Heinrich H.W, “Industrial Accident Prevention”, National Safety Council, Chicago, 1998. 2. John Ridley, “Safety at Work”, Butter Work Publisher, Oxford, 1997. 3. Dan Peterson, “Techniques of Safety Management”, 1990.
REFERENCES: 1. “Accident prevention manual for industrial operations”, National Safety Council, Chicago, 1995. 2. “Personal Protective Equipment”, National Safety Council, Bombay, 1998. 3. Robert.M, “Material Handling Equipment”, 1995. 4. Derek James, “Fire Prevention Handbook”, Buttes Worths & Co., Oxford, 1991.
04P022 SIMULATION OF MANUFACTURING SYSTEMS 3 0 0 3
INTRODUCTION TO SIMULATION: Areas of application, systems and system environment, components of a system, discrete and continuous systems, model of a system, types of models, discrete-event system simulation, steps in a simulation study. (6) RANDOM NUMBER GENERATION: Properties of random numbers, generation of pseudo-random numbers, techniques for generating random numbers, tests for random numbers. (6) RANDOM VARIATE GENERATION: Inverse transform technique, exponential, uniform, weibull, triangular, empirical, continuous, discrete distribution, direct transformation for the normal distribution, acceptance, rejection technique, poisson, gamma. (6) INPUT MODELLING: Data collection, identifying the distribution with data, parameter estimation, goodness-of-fit tests, selecting input models without data. (6) DESIGN AND EVALUATION OF SIMULATION EXPERIMENTS: Length of simulation runs, variance reduction techniques, experimental layout, validation. (6) MANUFACTURING SYSTEMS EXAMPLES: Simulation of single machine job shop, two machine job shop, simulation of inventory system and simulation of projects networks. (6) Introduction to GPSS: Programming for discrete event systems using GPSS, Case studies. (6) Total 42 Text Books: 1. Jerry Banks and John.S.Carson, "Discrete Event System Simulation", Prentice Hall of India, New Delhi, 2003. 2. Gordon G, "Systems Simulation", Prentice Hall of India Ltd., New Delhi, 2003. 3. Narsingh Deo, "System Simulation with Digital Computer", Prentice Hall of India, New Delhi, 2001.
Reference: 1. A.M & Kelton W.D., “Simulation, Modelling and Analysis”, McGraw Hill, New York, 2000.
3 0 0 3
Principles of Concurrent Engineering: Overview, approaches to CE, computer based CE, various models and trends in CE. (5) Implementation: Common failure modes and success factors, failure modes, causes and structure, overcoming barriers to the implementation of CE, seven common organization/technical barriers, actions to overcome above barriers. (5) Scheduling concurrent manufacturing projects: Precedence relaxation, composite allocation factor, a decision based approach to CE, frame of reference, decision support problem technique, application and implementation issues. (5) CONCURRENT OPTIMIZATION OF PRODUCT DESIGN AND MANUFACTURE: Concept, simultaneous evaluation of product performances and cost, methodologies for concurrent decision making, a cost based DFM system. (5) Evaluating PRODUCT MACHINABILITY FOR CONCURRENT ENGINEERING: Generative feature interpretation, process selection, machinability evaluation, design for human factors, controls and displays, use of anthropometry, manual material handling. (6) Designing to cost: Methodologies to reduce cost, aids in designing for cost quick cost estimation, designing to a cost goal, activity based costing, economic design in concurrent engineering, approaches, issues, integrated product and process design. (5) Applications of expert system to Engineering Design: Knowledge representation paradigms, spatial reasoning, integration with CAD database, a generic approach to DFM system description. (5) Modelling the design process with petrinets: Concept, properties, time based petrinets, neuro computing and concurrent engineering, artificial neural networks, manufacturing feature recognition, contributions of ANN for CE, introduction to current product development techniques. (6) Total 42 TEXT BOOK:
1.
Hamid.R.Parasaeie and William.G.Sullivan, "Concurrent Engineering,
Contemporary Issues and Modern Design Tools",
Reference:
1.
Edward.G.Haug, "Concurrent Engineering Tools and Technologies for
Mechanical System Design", Springer Verlag Proceedings of the NATO Advanced System Institute on Concurrent Engineering, Lowa City, 1992.
04P024 MATERIAL HANDLING SYSTEMS ENGINEERING 3 0 0 3
INTRODUCTION: Principal group, types, characteristics, choice and applications of materials handling equipments. (3) INDUSTRIAL TRUCKS: Trolleys, hand operated low-lift pallet truck, toweing tractor, and fork lifts. (2) HOISTING: Welding chains, roller chains, leaf chains, hemp ropes, and wire ropes, wire rope selection and life, fastening of chains and ropes, load suspension appliances. (4) PULLEYS, PULLEY SYSTEMS, SPROCKETS AND DRUMS: Design of wire rope sheaves and drums. (3) LOAD HANDLING ATTACHMENTS: Hooks and types, selection of standard forges, hooks, grabs for unit and place loads and loose material, lifting magnets, attachment for handling liquid material. (3) ARRESTING GEARS AND BRAKES: Ratchet and brakes, types, hoisting gear - drives, hoisting mechanism, traveling gear, rail wheels, slewing mechanism, jib and luffing gear. (4) CRANES AND ELEVATORS: EOT, jib cranes, bridge cranes, cage elevators, shaft way, guides, country weights, hoisting machine, safety, devices; an introduction to elevators, bucket elevators - description, design and application. (9) CONVEYORS: Types, characteristics and choice, belt conveyors - Types, description, design and application, pneumatic conveyor - description, design and application of suction and pressure types, screw conveyors - description, design and application. (11) MATERIAL HANDLING EQUIPMENT FOR CIM: AGV, Robotics, pallets, AS/RS, Barcode/RF identification. (3) Total 42TEXT BOOKS: 1. Kulwise R.A, “Basics of Materials Handling” M.H. Institute, New York, 1986. 2. Mikell P.Groover, “Automation, Production System and Computer Integrated Manufacturing”, Prince Hall India, New Delhi, 2002.
REFERENCES: 1. Rudenco N, “Material Handling Equipment”, Peace Publishers, Moscow, 1978. 2. Spivakovsky and A.Dyachkov.V, “Conveyors and Related Equipment”, Peace Publishers, Moscow, 1985. 3. Tompkins J.A, White Y.A.Bozer and E.H.Frazelle JM, “Facilities Planning”, John Willey & Sons, 2003. 4. Faculty of Mechanical Engineering, PSG College of Technology, "Design Data Book", DPV Printers, Coimbatore, 1993 5. Alexandrov M.P, “Material Handling Equipments”, MIR Publishers, Moscow, 1981.
vide Mechanical Engineering 04M039
04P026 SUPPLY CHAIN MANAGEMENT vide Mechanical Engineering 04M040
vide Mechanical Engineering 04M041
vide Mechanical Engineering 04M042
ELECTIVES - DESIGN ENGINEERING
3 0 0 3
INTRODUCTION: Shrinkage, wall thickness, taper and draft angle, corners, ribs, bosses, weld lines, undercuts, surface finish. (5) MOLDS AND MOLDING MACHINE: Tooling terminology, mold impression, mold core, mold cavity, split line, venting, ejection, back plate, sprue bush, register ring, mold t | ||||||||||||||||||||||||||||
