Production & Industrial Engineering (1)

8/3/2019 Production & Industrial Engineering (1)

1/34

MASTER OF TECHNOLOGY IN MECHANICAL ENGINEERING(INDUSTRIAL & PRODUCTION ENGINEERING)

SEMESTER-I L T P/D Total Cr.

MTI-501 Production, Planning & Control 3 1 - 4 3.5

MTI-503 Advanced Manufacturing Techniques 3 1 - 4 3.5

MTI-505 Computer Aided Manufacturing 3 1 - 4 3.5

- Elective-I (Thermal) 3 1 - 4 3.5

- Elective-II (Machine Design) 3 1 - 4 3.5

MTI-507 Advanced Manufacturing Techniques Lab - - 2 2 1.0

Total 18.5

SEMESTER-II L T P/D Total Cr.

MTI-502 Non Conventional Machining 3 1 - 4 3.5

MTI-504 Mechatronics 3 1 - 4 3.5

- Elective-I (Thermal) 3 1 - 4 3.5

- Elective-II (Machine Design) 3 1 - 4 3.5

MTI-506 Mechatronics Lab - - 2 2 1.0

MTI-508 Seminar - - 2 2 1.0

Total 16.0

SEMESTER-III L T P/D Total Cr.- Elective-I (I&P) 3 1 - 4 3.5

- Elective-II (I&P) 3 1 - 4 3.5

- Elective-III (I&P) 3 1 - 4 3.5

MTI-509 CAD/CAM Lab - - 2 2 1.0

Total 11.5

SEMESTER-IV

MTI-520 Dissertation

LIST OF ELECTIVES (INDUSTRIAL & PRODUCTION)

1. MTI-511 Material Management

2. MTI-512 Operations Management3. MTI-513 Experimental Designs

4. MTI-514 Thermo Fabrication

5. MTI-515 Quality &Reliability Management

6. MTI-516 Strategic Entrepreneurship

7. MTI-517 Machine Vision

8. MTI-518 Productivity Management

LIST OF ELECTIVES (THERMAL)

1. MTT-501 Advanced Fluid Engineering

2. MTT-502 Computational Fluid Dynamics

3. MTT-503 Advanced Heat & Mass Transfer

4. MTT-505 Refrigeration Engineering

5. MTT-512 Air Conditioning6. MTT-517 Renewable Energy & Energy Management

7. MTT-518 Gas Turbine & Jet Propulsion

LIST OF ELECTIVES (MACHINE DESIGN)

1. MTD-501 Computer-Aided Design

2. MTD-502 Applied Numerical Methods

3. MTD-503 Design of Mechanisms

4. MTD-504 Advanced Mechanics of Solids

5. MTD-505 Advanced Mechanical Vibrations

6. MTD-511 Industrial Robotics

7. MTD-512 Measurement and Control

8. MTD-517 Finite Element Methods


2/34


MTI501 PRODUCTION PLANNING & CONTROL

L T P/D Cr.

3 1 - 3.5

1. GeneralFunctions of production planning and control, preplanning planning, control, plant layout,

simplification and standardization, time and motion study. (4hrs)

2. Product Development and DesignEffect of competition on design, Long-range Planning, Company policy, product analysis,marketing aspects, the product characteristics, functional aspect, operational aspect, durabilityand dependability, Aesthetic aspect; Economic analysis, Profit and competitiveness, The threeSs:- Standardization, Simplification and Specialization. Break Even Analysis. (9 hrs)

3. Inventory ControlDefinition, classification, objectives of inventory control, functions, economic order quantityvarious inventory models. Numericals on inventory control. Inventory carrying costs, factorsaffecting inventory costs. V.E.D. analysis, S-D-E analysis, F-S-N analysis H-M-L analysis andABC analysis. Safety stocks, their objectives safety stocks and service levels. (9 hrs)

4. Evaluation of Material and ProcessesIntroduction, value analysis, consideration of new techniques and materials, value analysistests, material utilization of a product or assembly. Numerical problems on material utilization ofa product. Value engineering job plan and various phases of job plan in systematic valueengineering approach. (10 hrs)

5. Routing, Loading and SchedulingIntroduction, Scheduling Procedure, Master Schedule, its objectives, Order scheduling, Loadingby scheduled period, Dispatching, Job card, Job order. Commercial Loading & SchedulingDevices. (8 hrs)

Books Recommended:

1. Production Planning and control: Samuel Eilon2. Production Planning and Control: K.C. Aggarwal & K.C. Jain3. Industrial Engg. & Operation Management by S.K. Sharma & Savita Sharma.4. Production Planning and Control: King J.R.5. Production Planning and Control: Sharma, Hari Rraghu Rama.6. Production Planning and Control: Narasimhan Seetha-rama L.


3/34


MTI503 ADVANCED MANUFACTURING TECHNIQUESL T P/D Cr.

3 1 - 3.5

1. Different Techniques:Manufacturing Change in manufacturing system, manufacturing strategies, Advanced

manufacturing Technologies for Indian Industries, Robust design methodology for QualityEngineering and management, Taguchi concepts, Quality function deployment, Rapid prototyping: Technology and challenges, Introduction and concepts of JIT, CAPP, MRP, CIMS, FMS,SCM, TPM, Kaizan, Agile manufacturing, Lean Manufacturing, Virtual manufacturing system,kanban, Theory of constrains, synchronous manufacturing, concurrent Engineering. (30 hrs)

2. Advanced Techniques:Manufacturing and Environmental issues, Advanced materials and their application inmanufacturing, Abrasive flow machining , Advanced welding processes (New Solid stateWelding, Arc welding and Radiation welding Processes). (10 hrs)

Books Recommended:1. Modern Machining Processes, P.C. Pandey and H.S. Shan, TMH

2. Machining Science, Ghosh and Mallik, AEW3. Non-Traditional Manufacturing Processes by G.F. Benedit, Marcel Dekker.4. Advanced Machining Processes by V.K. Jain, Allied Puiblishers.


4/34


MTI505 COMPUTER AIDED MANUFACTURINGL T P/D Cr.

3 1 - 3.5

1. Introduction to ManufacturingBasic definitions, design activities for manufacturing systems, Planning and control activates formanufacturing system, Manufacturing control, Types of production low, Medium and high

quantity production. (6 hrs)

2. Group Technology and Cellular ManufacturingPart families, parts classifications and coding, Production flow Analysis, cellular Manufacturing-composite part concept, machine cell design, applications of group technology, Grouping partsand machines by Rank order clustering technique, Arranging machines in a G.T. cell. (10 hrs)

3. Process PlanningIntroduction, Manual process planning, Computer aided process planning variount,generative, Decision logic- decision tables, decision trees, Introduction to Artificial intelligence.

(6 hrs)

4. Flexible Manufacturing

Introduction, FMS components, Flexibility in Manufacturing machine, Product, Routing,Operation, types of FMS, FMS layouts, FMS planning and control issues, deadlock in FMS,FMS benefits and applications. (8 hrs)

5. CNC Basics and Part ProgrammingIntroduction, Principle of CNC, Classification of CNC/NC point to point and continuous path,positioning system- fixed zero and floating zero, Dimensioning- absolute and incremental,Coordinate system, Basic requirements of CNC machine control, CNC/NC words, Manual partprogramming, (G&M codes only) canned cycles, tool length and radius compensation. (10 hrs)

Books Recommended:1. Automation, Productions systems and Computer-Integrated Manufacturing by M.P.

Groover, Prentice Hall

2. Computer Aided Manufacturing by Chang, Wang & WySK3. Numerical Control and Computer Aided Manufacturing by Kubdra, Rao and Tiwari,

Tata Mc Graw Hill.4. International Journal of Production Research5. International Journal of Flexible Manufacturing system.


5/34


MTI507 ADVANCED MANUFACTURING TECHNIQUES LAB

L T P/D Cr.

- - 2 1

List of Experiments:

1. To study the working of EDM m/t

2. To determine the effects of process variables of EDM on surface finish of parts

3. To determine the effects of process variables on dimensional accuracy of parts in EDM

process

4. To determine the effects of process variables of EDM on MRR of EDMed parts

5. To study the working of CNC Wirecut EDM m/t

6. To study the effects of process parameters of WEDM on cutting rate

7. To study the effects of process parameters of WEDM on surface finish of parts

8. To study the effects of process parameters of WEDM on machining accuracy

9. To study the working of Ultrasonic Drilling process

10. To study the working of Advanced Manufacturing System


6/34


MTI502 NON-CONVENTIONAL MACHININGL T P/D Cr.

3 1 - 3.5

1. Introduction: Need for advanced machining processes; An Overview of Modern machining

processes

2. Mechanical processes: Abrasive Jet Machining; Ultrasonic Machining; Abrasive FlowFinishing; Magnetic Abrasive Finishing; Abrasive Water Jet Machining

3. Thermoelectric advanced machining processes: EDM; EleGtric Discharge Diamond

Grinding; Wire EDM; Laser beam Machining; Plasma Arc Machining; Electron BeamMachining

4. Electrochemical and Chemical Processes: ECM; ECG; Electro stream Drilling;

Electrochemical Deburring; Chemical Machining

Books Recommended:1. Advanced Machining Processes by V.K. Jain. Allied Publishers Pvt Ltd

2. Model:n Machining Processes by P.C. Pandey and H.S. Shan. Tata McGraw- Hill


7/34


MTI504 MECHATRONICSL T P/D Cr.

3 1 - 3.5

1. Introduction:Definitions, trends, control systems, microprocessor / micro controller based controllers, PC

based controllers, applications: SPM, robot, CNC machine, FMS, CIM. (3 hrs)

2. Sensor Technology:Sensor and transducers, terminology, displacement, position, proximity encoders, velocity tachogenerators, force - strain gauges, pressure, temperature thermocouples, RTDs,thermistors, light sensors photoelectric sensors, IR sensors, sensor selection. (4 hrs)

3. Signal Conditioning:Introduction, the operational amplifier, protection, filtering, Wheatstone bridge, digital signals,multiplexers, data acquisition, digital signal processing, pulse modulation. (3 hrs)

4. Precision Mechanical Actuation:Pneumatic actuation systems, electro-pneumatic actuation systems, hydraulic actuation

systems, electro-hydraulic actuation systems, mechanical systems, types of motion, kinematics,inverse kinematics, timing belts, ball screw and nut, linear motion guides, linear bearings,harmonic transmission, bearings, motor / drive selection. (6 hrs)

5. Electronic Devices and Circuits:Semiconductor devices, diodes and LEDS, zener diodes and voltage regulator, inductive kick,bandwidth, frequency %& response of a measurement system, bipolar transistor circuits,amplifiers. (4 hrs)

6. Electromechanical Drives:Relays and solenoids, stepper motors, DC brushed and brushless motors, DC servo motors,AC / DC motors for non-servo motion drives, braking methods, pulse width modulated, Bipolardriver, Mosfet drives, SCR drives, variable frequency drives. (4 hrs)

7. Digital Electronics:Digital logic, number systems, logic gates, Boolean algebra, Karnaugh maps, sequential logic.

(3 hrs)

8. Microprocessors:Control, microcomputerstructure, microcontrollers, digital interfacing, analog interfacting, DAC,ADC, applications. (4 hrs)

9. Input / Output Systems:Interfacing, input / output ports, interface requirements, peripheral interface adapters, serialcommunication interface, direct memory access. (3 hrs)

10. Control System:System transfer function, Laplace transformation and its applications, continuous and discreteprocesses, proportional control, integral control, differential control, PID control, digitalcontrollers, control system performance, controller tuning, adaptive control, frequency response,PLC, PMC, introduction to fuzzy logic and neural networks. (6 hrs)

Books Recommended:1. Understanding Electro-Mechanical Engineering An Introduction to Mechatronics

by Kamm, Prentice-Hall of India.


8/34


MTI506 MECHATRONICS LAB

L T P/D Cr.

- - 2 1

List of Experiments1. To study and conduct exercises on PLC Simulator.

2. Control of conveyor manually and through programming, also programming using sensors

and conveyor.

3. Control of X-Y position table manually and through programming.

4. To study and conduct exercises on Robo-X.

5. To study and conduct exercises on Pneumatic & Electro-Pneumatic Training System.

6. To study and conduct exercises on Simulation Software for Pneumatic Components

(P-Simulator).

7. To study and conduct exercises on Hydraulic and Electro-Hydraulic Training System.

8. To study and conduct exercises on Simulation Software for Hydraulic Components

(H-Simulator).

9. To study and conduct exercises on Educational Robot Training System.


9/34


MTI508 SEMINARL T P/D Cr.

3 1 - 3.5

Students are required to deliver a seminar on some emerging areas of Industrial & ProductionEngineering.


10/34


MTI509 CAD/CAM LAB

L T P/D Cr.

- - 2 1

List of Experiments

1. Write a Program to Extract a sub-Image from a given Image.

2. Write an M-function to Compare the Implementation of a 2D Image Function using the

Loops and Vectorization.

3. Write a Program to Compute the following Transformation Functions: Negative, Log,

Gamma, and Contrast Stretchy.

4. Write a Program to Generate and Plot Image Histograms. Show the Difference between

the Original Image and the Histogram Equalized Image.

5. Show the use of Linear Spatial Filters on Image.

6. Show the use of Non-linear Spatial Filters on Image.

7. Compute and Visualize the 2D FFT of an Image.

8. Write a Program to Compute an Image with Noise.

9. Write a Program that Compute the Histogram of a Region of Interest (ROI) in an Image.

10. Write a Program to Flip the Image Vertically, Cropping of Image, and to sub-Sampling of

the Image.

11. Write a Program to Display, Show Basic Information, and Write an Image.

12. Write a Program to Find out Neighborhood Average Image.

13. Write a Program to use Median Filtering an Image.


11/34


MTI520 DISSERTATION

L T P/D Cr.

3 1 - 3.5

A student is required to work for one semester for analysis/synthesis/designing developmentetc. on some latest areas of Industrial & Production Engineering.


12/34


MTI511 MATERIAL MANAGEMENT

L T P/D Cr.

3 1 - 3.5

1. Integrated approach to materials management:

Introduction, materials productivity and role of materials management techniques in improvedmaterials productivity. Cost reduction and value improvement, value analysis for right choiceand rationalization of materials.

2. Purchasing function:Objectives, purchase requisitions, types of specification, centralized versus decentralizedpurchasing, timing of purchases. Purchasing research, identification of right sources ofsupplies. Make or buy decisions, vender selection and vender rating. Negotiations, purchaseprice analysis and price determination. Purchasing organization, procedures, forms, recordsand reports. Purchasing as a dynamic profession, transition to supply management,

3. Inventory management:Inventory concepts, reasons for holding inventory, types of inventory, inventory reduction

tactics. Inventory turnover ratio. Selective Inventory management: ABC, VED, and FSNanalysis etc., identifying critical items with selective inventory management.

4. Operating policies:continuous review system, periodic review system, comparative advantages anddisadvantages of continuous and periodic review systems, hybrid systems. Inventorymanagement across the organization.

5. Optimising Inventory:Assumptions for Wilsons lot size model, inventory costs, hidden costs, composition of costs,estimation of inventory related costs, lead time, stock out point, number of time periods,calculating Economic Order Quantity (EOQ), sensitivity analysis of EOQ model.

6. Special inventory models:Finite replenishment rate model, lot size models with planned backlogging, generalized modelwith uniform replenishment rate, inventory model with lost sales, quantity discount model, oneperiod decisions. Determination of safety stock, service level and uncertainty in demand.Information systems for inventory management.

7. Stores managementIntroduction, stores functions, stores organization, stores systems and procedures, storesaccounting and verification systems, stores address systems, stores location and layout, storeequipment.

8. Standardization and codification:Classification of materials. Codification, objectives of codification, essential features of

codification system, Brisch and Kodak systems, colour coding systems. Standardisation andvariety reduction.

Books Recommended:

1. Arnold and Chapman Introduction to Materials Management, Pearson Education Asia, Fourth

Edition, (2001)

2. Narsimhan, Mcleavey & Billington, Production Planning & Inventory Control, Prentice Hall of

India, Second Edition (2003)

3. Dobler Donald W., Burt David N., Purchasing and Supply Management, Tata McGraw Hill,

Sixth Edition (2001)

4. Menon K S, Purchasing and Inventory Control, Wheeler Publishing New Delhi, Third Edition

(1997)

5. Krajewski L J and Ritzman L P, Operations Management, Pearson Education Asia, SixthEdition (2004)


13/34

MASTER OF TECHNOLOGY IN MECHANICAL ENGINEERING)(INDUSTRIAL & PRODUCTION ENGINEERING)

MTI512 OPERATIONS MANAGEMENT

L T P/D Cr.

3 1 - 3.5

1. Basics of Production Management:

Types of production, life cycle approach to production system, Productivity and Productivitymeasures, types of productivity index, productivity improvement, production scheduling, MRPv/s JIT, requirements and problems in implementing JIT, Benefits of JIT, Introduction to JITpurchasing and JIT quality management (15 hrs)

2. Supply chain management, its importance, objectives and applications. Tenabled supply

chain supply chain drives concepts of stockless, VRM and CRM. (7 hrs)

3. Business Process:Re-engineering-characteristics, organizational support, responsibility of re-engineering, re-engineering opportunities, choosing the process to re-engineer, success factors andadvantages. (6 hrs)

4. ERP:Evolution of ERP, Characteristics, approaches, methodology for implementation, Successfactors. (7 hrs)

5. Waste Management:Introduction, classification of waste, systematic approach to waste reduction, waste disposal.

(5 hrs)

Books Recommended:1. Operation Research by D. S. Hira & P. K. Gupta,2. Introduction to Operation Research by Hiller & Liebeman

3. Production and Operations Management by S.A.Chunawalla and D.R.Patel


14/34


MTI513 EXPERIMENTAL DESIGNS

L T P/D Cr.

3 1 - 3.5

1. Introduction: Objectives for experimental designs. Basic design concepts. Steps for the

design of experiments. types of experimental designs. Analysis of Means. Experimental designs andsix sigma

2. Completely Randomized Design: Model for a completely randomized design \vith a single

factor. ANOM for a completely randomized design. ANOM with unequal variances. Randomized BlockDesign. Incomplete Block Designs. Latin Square Design. Graeco -Latin Square Design

3. Full Factorial Designs with Two Levels: Nature of Factorial Designs. Deleterious Effects of

Interactions. Effect Estimates. The 23 Design. Built-in-Replication. Role of expected mean squares inexperimental design

4. Fractional Factorial Designs with Two Levels: 2k-1 Designs. Effect Estimates andRegression Coefficients; 2k-2 Designs. Basic Concepts; Design Efficiency; John's 3/4 Designs

5. Designs with more than two levels: 3k Designs; Conditional Effects; 3"-P Designs;

Orthogonal Arrays with mixed levels

6. Robust Designs: DOE and Taguchi Approach; Experimental Design using orthogonal arrays;

Experimental Designs with Two-Level Factors only; Experimental Designs with Three and Four LevelFactors; ANOV A; Analysis using Signal- to- Noise Ratios; Some case studies; QT4 SoftwareResponse Surface Methodology; Response surface experimentation; Process improvement withSteepest Ascent; Analysis of Second-order response surfaces; Central Composite Designs; Box-Behnken Designs; Analyzing the fitted surface; Design-Expert Software

Books Recommended:1. Modern Experimental Design by Thomas P Ryan. John Wiley2. Response Surface Methodology by Myers R H and Montgomery Dc. John Wiley3. Design of Experiments using the Taguchi Approach by Ranjit K Roy. John Wiley


15/34


MTI514 THERMO FABRICATIONL T P/D Cr.

3 1 - 3.5

1. Classification:Arc welding processes: carbon arc welding; shielded metal arc welding; submerged arc

welding; gas tungsten arc welding; gas metal arc welding; plasma are welding; atomic hydrogenwelding; stud welding; electoslag welding; electrogas welding. Resistance welding Processes:various techniques used in Industry; Friction welding ultrasonic welding; diffusion welding;electron beam welding; laser welding; thermit welding; pressure and non-pressure type. (8 hrs)

2. Arc Welding Power Sources:Requirements for an arc welding power source; constant current characteristics; constantvoltage characteristics, duty cycle. A.C. welding power source D.C. welding power sources.

(4 hrs)

3. Welding Electrodes:Types of welding eldctrodes, electrode details, non non-consumable or refactory electrodes,consumable electrodes, light, medium and heavy coated electrodes, categories of coated

electrodes, electrode coating ingredients and their functions, selection of electrodes.(5 hrs)

4. Weldability and Welding of Various Metals:Weldability of metals, effect of alloying element on weldability. Welding of cast iron, welding ofcarbon steels, welding of stainless steel, welding of aluminum and its alloys. (5 hrs)

5. Foundry Mechanization:Definition, advantages and disadvantages. Moulding machines, functions, advantages anddisadvantages. Various types of moulding machines. (4 hrs)

6. Principle of Gating:

Gating system, requiremenmts, functions of gating system, pouring cups and basins, sprues,gates their characteristics and different types, design of gating system, defects occurring due toimproper design of gating system. ( 5 hrs)

7. Principle of Risering:Functions of riser, types of risers, riser and directional solidification, design, general principleriser shape and size, riser location and riser feeding distance. (5 hrs)

8. Defects in Castings & Special Casting Techniques:Classification of defects, main types, their causes and remedies. Techniques of die castingcentrifugal casting, investment casting their limitations advantages and disadvantages. (4 hrs)

Books Recommended:1.Principle of Foundry Technology by P.L. Jain2.Fundamentals of Metal Casting by P.C. Mukherjee.3.Foundry Engineering by Tayloir Howard F.4.Welding and its applications by Rossi, B.E5.Metallurgy of Welding by Lancaster J.F6.Modern Welding Technology by Cary Howard B.,7.Welding Processes and Technology by R.S. Parmar.


16/34


MTI515 QUALITY & RELIABILITY MANAGEMENT

L T P/D Cr.

3 1 - 3.5

1. Introduction:

Concept of quality, Need, Factor influencing quality, Types of quality, Quality control, Cost ofquality control, Quality assurance, Benefits, Modern concept, Inspection and quality control,Quality characteristics, Quality circles. (6 hrs)

2. Statistical Concepts and Control Charts:Review of fundamental statistical concept, Frequency distribution, Central tendency, measuresof dispersion, Probability distributions, statistical quality control, Theory of control charts,

Control charts for variables and attributes ( ,x R, P, np and C chart), their advantages and

disadvantages, Applications. (8 hrs)

3. Acceptance Sampling:Introduction, Advantages and Disadvantages, Operating Characteristics curve, Producers andconsumers risk, Quality indices for acceptance sampling plans, Types of sampling Plans-single

double sequential sampling plan, Sampling plan for variables, continuous sampling plans, Skiplot sampling plans, Chain sampling plan. (8 hrs)

4. Total Quality Management:Introduction, Concept of Total quality, Quality function, Deployment tools for continuous qualityimprovement, The ISO 9000 family of standards, Six sigma and other extensions of TQM.

(8 hrs)

5. Reliability:Introduction, Factor effecting Reliability, Failure and its types, Failure curve, Majors of reliability,MTBF, MTTF, Relationship b/w reliability failure rate and MTBF and its characteristics, Systemreliability (components in series and parallel) System reliability with stand by components,Redundancy, Operating characteristics curve, Reliability and life testing plans, Types of test,Maintainability, Availability. (10 hrs)

Books Recommended:1.Statistical Quality control by C. Gupta.2.Modern Methods for Quality Control and Improvement by Harrism M. Wadsworth.3.Statistical Quality control by E.L. Grant.4.Reliability Mathematics by B.L.Ams Tadter.5.Fundamental of Quality Control and Improvement by Amitava Mitra.


17/34

MASTER OF TECHNOLOGY IN MECHANICAL ENGINEERING(INDUSTRIAL & PRODUCTION ENGINEERING)MTI516 STRATEGIC ENTREPRENEURSHIP

L T P/D Cr.

3 1 - 3.5

1. Small Scale IndustriesDefinition and types of SSIs ; Role, scope and performance in national economy; Problems of

small scale industries. (4 hrs)

2. Industrial SicknessDefinition; Causes of sickness; Indian scenario, Government help; Management strategies;Need for trained entrepreneurs (6 hrs)

3. Entrepreneurship Development ProgrammesIntroductioin, Origin of EDPs , Organizations involved in EDPs, Objectives of EDPs,Implementation of EDPs, Short comings of EDPs, Role in entrepreneruship development.

(6 hrs)

4. STEPInroduction, Origin, Status in India, Success and failure factors, Govt. polices and incentives,

future prospects in India. (6 hrs)

5. Business IncubationIntroduction, Origin and development of business incubators in India and other countries,types of incubators, success parameters for a business incubator, Benefits to industries,institutes, government and society; future prospects. A few case studies (at least 2). (6 hrs)

6. Special Aspects of EntrepreneurshipIntrapreneurship, Social entrepreneurship, International entrepreneurship, Ruralentrepreneurship, Community Development, Women entrepreneurship. (6hrs)

7. Network Marketing

Introduction, E-business, E-commerce, E-auction, A basic internet e-business architecture, Amulti tier e-business architecture. (6 hrs)

Books Recommended:1. Strategic Entrepreneurship by P.K. Gupta, (Everest Publishing House)2. Project Management Strategic Design and Implementation by David Cleland(McGraw Hill)3. Entrepreneurship-New Venture Creation by David H Holl (Prentice Hall of India)4. Sustainable Strategic Management by Steed & Steed (Prentice Hall of India)5. Marketing Management by Kotler (Prentice Hall of India)6. Management of Technology by Tarek Khalil (McGraw Hill)7. Engineering Economic Principles by Henry Steiner (McGraw Hill)


18/34


MTI517 MACHINE VISION

L T P/D Cr.

3 1 - 3.5

1. IntroductionMachine vision, Elements of machine vision system, Basic relationship between pixels

(Neighbors of a pixel, connectivity, Labeling of connected components, Distance measure).(4 hrs)

2. Image ProcessingDigitization, Noise, Introduction to spatial domain and frequency domain, Spatial filters (mean,median, gaussian smoothing filters, high pass filters), Image enhancement techniques (LUT,Histogram Equalization, Histogram specification, contrast stretching, intensity transformations).

(8 hrs)

3. Image AnalysisSegmentation of images, Techniques for detecting point, line, edges (Roberts, Prewitt, Sobel,Laplacian operations), Edge linking and boundary detection, Thresholding, Region orientedsegmentation (Region growing by pixel aggregation, Region splitting and merging); (8 hrs)

4. DescriptionBoundary Descriptions (Chain code, Signtures, Polygon approximation, shape numbers, Fourierdescriptors) Regional descriptors-simple descriptors (Perimeter, area, minimum and maximumradii, no. of holes, corner, bending energy, compactness), Moment based descriptors (center ofmass, bounding rectangle, Best fit ellipse, Eccentricity, moment invariants), Texture. (10 hrs)

5. Pattern RecognitionDecision theoretic methods (Nearest neighbor classifier, Neural network), Structural methods,syntactic methods, Template matching. (10 hrs)

Books Recommended:

1. Digital image processing by Rfael C. Gonzalez and Richard E.

Woods.

2. Fundamentals of Digital image processing by Anil K. Jain

3. Digital image processing-Concepts, Algorithms and Scientific

Applications by Bernd Jahne.

4. Machine vision by Ramesh Jain, Rangachar Kasturi, Brian G.

Schunck.


19/34


MTI518 PRODUCTIVITY MANAGEMENT

L T P/D Cr.

3 1 - 3.5

1. Introduction : Productivity BasicsConcern and the Significance of Productivity Management, the Rationale of ProductivityMeasurement, Productivity: Some Perspectives, Productivity Measurement: A Case for Re-

appraisal (6 hrs)

2. Productivity Measurement: A Conceptual FrameworkObjectives of Productivity Measurement, Management by Objectives (MBO) and ProductivityMeasurement, Systems Approach to Productivity Measurement, Performance Objectives Productivity (PO-P) : The Concept, PO-P: The Model, PO-P: The Methodology. (8 hrs)

3. Productivity Measurements in Manufacturing SectorProductivity Measurement in Manufacturing Sector, Productivity Measurement in a MediumSized Organisation, Productivity Measurement in a Large Sized Organisation. (6 hrs)

4. PO-P Application : Productivity Measurement in Service SectorNeed for measuring Productivity in Service Sector, Difficulties in measuring productivity,

Productivity of an R&D System, Productivity of an Educational Institution. (6 hrs)

5. Productivity Management : The Role of External EnvironmentExternal Environment and Organisation, Impact of external Environment, ExternalEnvironment: Its Sub-systems, Approaches to measure Impact of External Environment.

(6 hrs)

6. Productivity Management and Implementation StrategiesProductivity Management System, Productivity Policy, Productivity: Organisation & Planning,Productivity Measurement, Productivity Measurement Evaluation, Productivity ImprovementStrategies, Productivity Audit and Control (8 hrs.)

Books Recommended:1. Productivity Management by Prem Vrat, G.D.Sardana and B.S.Sahai2. Production and Operations Management by S.A.Chunawalla and D.R.Patel


20/34

MASTER OF TECHNOLOGY IN MECHANICAL ENGINEERING (THERMAL)

MTT501 ADVANCE FLUID ENGINEERINGL T P/D Cr.

3 1 - 3.5

1. Introduction

Review of basic concepts. (2 hrs)

2. Integral analysis of flow

Basic laws in integral form; transport theorem; continuity, momentum and energy equations in

integral form and their applications. (6 hrs)

3. Differential analysis of flow

Continuity equation; derivation of Navier Stokes equation and exact solution energy equation.

(4 hrs)

4. Ideal fluid flow

Kinematics of fluid flow; potential flow; Bernoulli's equation and applications; sources, sinks,

doublets and vortices; superimposition of uniform stream with above; flow around comers;

Rankine ovals; flow around uniform cylinders with and without circulation; pressuredistribution on the surface of these bodies and DAlemberts paradox. (6 hrs)

5. Viscous flow

Exact solution; plane Poiselle and Coutte flows; Hagon-Poiselle flow through pipes; flows with

very small Reynold's numbers; Stokes flow around a sphere; elements of hydrodynamic

theory of lubrication. Flows with very large Reynold's numbers; elements of two dimensional

boundary layer theory; displacement thickness and momentum thickness; skin friction;

Blaussius solution for boundary layer on a flat plate without pressure gradient; Karman-

Porausen integral method for obtaining approximate solutions. Drag on bodies; form drag and

skin friction drag; profile drag and its measurement. (6 hrs)

6. Transition flows

Transition from laminar to turbulent flows, Reynold's stresses, turbulent boundary layer over a

flat plate; transition for flat plate flow. (6 hrs)

7. Compressible fluid flows

One dimensional isentropic flow; Fanno and Rayleigh lines; choking; shocks (normal and

oblique). (5 hrs)

8. Vortex Motion

Definitions; vortex lines; surfaces and tubes; vorticity; circulation; Kelvins circulation theorem;

Helmholtzs vorticity theorem; Biot-savart law for induced vorticity; system of vortex filaments;

horse-shoe vortex filaments; ring vortices;vortes sheets; karman vortex sheet. (5 hrs)

Books Recommended:

1. Fundamentals of Mechanics of Fluid by Curriec, Mcgraw-Hill

2. Foundation of Fluid Mechanics, Yuan, Prentice Hall

3. Engineering fluid mechanics, K.L.Kumar, Eurasia

4. Fluid Mechanics and its applications, Gupta and Gupta, Willey Eastern


21/34

MASTER OF TECHNOLOGY IN MECHANICAL ENGINEERING (THERMAL)MTT503 ADVANCED HEAT AND MASS TRANSFER

L T P/D Cr.

3 1 - 3.5

1. ConductionReview of the basic laws of conduction, convection and radiation. General heat conductionequation in different co-ordinates. One dimensional steady state conduction with variable.Thermal conductivity and with internal distributed heat sources, extended surfaces review,

Tapered fins, design considerations. Two dimensional steady-state conduction, semi-infiniteand finite flat plates and cylinders, graphical method, relaxation technique. Unsteady stateconduction in solids with infinite thermal conductivity, infinite thick-solids, periodic variation,solutions using Grolbers and Heisfers charts. (10 hrs)

2. ConvectionHydrodynamic and thermal boundary layers, differential equations, momentum and energy andtheir solutions, heat transfer in turbulent flow, eddy heat diffusivity, Reynolds analogy betweenskin friction and heat transfer. Free convection, empirical correlations, regimes of boiling,Nucleate and film boiling. (8 hrs)

3. Heat Exchangers

Introductions, effectiveness and number of transfer units, design of heat exchangers. (4 hrs)

4. RadiationIntroduction, laws of radiation, heat exchange between black bodies and non-black bodies,shape factor algebra, Radiation shields, electrical net-work approach of radiation heatexchange. (6 hrs)

5. Mass Transfer Introduction, Ficks law, General equation of mass diffusion steady state, diffusion through aplain membrane, diffusion of water vapour through air, Mass transfer coefficient, convectivemass transfer. (8 hrs)

6. Heat Pipe

Introduction, Working of Heat pipe, Different types of Heat Pipe, Detail of Heat Pipecomponents, Advantages of Heat Pipe, Application of Heat Pipe, Performance of Heat Pipe,Limitation of Heat Pipe, Analysis and Design of Heat Pipe.(4 hrs)

Books recommended

1. Principles of Heat Transfer by Kreith2. Heat Transfer by Holman3. Fundamentals of Heat and Mass-transfer by D.S. Kumar 4. Heat and mass transfer by Eckert Darke.


22/34


MTT505 REFRIGERATION ENGINEERINGL T P/D Cr.

3 1 - 3.5

1. Introduction

Lubrication of reverse control cycle with vapour as a refrigerant, simple vapour compressioncycle, pressure-Enthalpy diagram, Ewings construction, Suction state for maximum COP.Standard rating cycle and effect of operating conditions, (Evaporator pressure, condenser

pressure, suction vapour super heat, liquid sub cooling liquid vapour regenerative heatexchanger) Deviation of actual vapour compression cycle with that of theoretical. (6 hrs)

2. Air Refrigeration SystemReverse Carnot cycle, most efficient refrigerator, Bell-Colman cycle, advantages anddisadvantages of air refrigeration system, necessity of cooling the auroplanes, simple coolingand simple evaporative type, Bootstrap and Bootstrap evaporative type, regenerative type,reduced ambient. Limitation, merits and comparison. (6 hrs)

3. Multi TemperatureMethod of improving the COP, optimum inter state pressure for two stages refrigeration system,Multi stage or compound compression with flash inter cooler, single expansion valve and multiexpansion valve. Multi evaporator system with single compressor, individual compressor with

compound compression, single expansion valve and multi-expansion valve. (6 hrs)

4. Production of Low TemperatureLimitations of simple vapour compression system, multistage system, cascade system,production of solid carbon dioxide, Joule-Thomson effect, liquification of gases, hydrogen,helium, application of low temperature, Cryogenic insulation. (6 hrs)

5. Steam Jet RefrigerationSteam Jet Refrigerator, component of steam Jet refrigeration plant, advantages and limitationsof steam jet refrigeration system, performance of the system. Determination of equalibriunconcentration. (5 hrs)

6. Vapour Absorption System

Simple vapour absorption system, Maximum co-efficient of performance, modification of simplevapour absorption system, acxtual vapour absorption cycle and its representation on Enthelpy composition diagram, absorption system calculation. Richy and poor solution concentration.Lithium Bromide water system. (5 hrs)

7. ApplicationManufacture and treatment of metal, industrial mideical, civil engineering, solar refrigeration andice manufacturing. Properties of refrigerants and mixture of refrigerant. Design consideration ofcompressors, condensers, expansion devices, evaporators, ice manufacture, food presentation.

(6 hrs)

Books Recommended:1. Mechanical Refrigeration by Sporks and Diffio.2. ASHARE Handbook (Fundamentals) by ASHARE.3. Thermal Environment Engineering by Threlkeld.4. Regrigeration and Air-conditioning by C.P. Arora.5. Refrigeration and Air conditioning by Stocker.

Cascade system Ejector compression system.

Method, use of Pre-cooling, Liquification.6. Refrigeration and Air conditioning by Stocker, Mc-Graw Hill.7. Air Conditioning Design Hand Book by Carrier Corfon (Ed), Mc-Graw Hill.


23/34

MASTER OF TECHNOLOGY IN MECHANICAL ENGINEERING (THERMAL)MTT502 COMPUTATIONAL FLUID DYNAMICS

L T P/D Cr.

3 1 - 3.5

1. IntroductionIntroduction to C.F.D. , models of the flow, governing differential equations continuityequation, momentum equation, energy equation, Navier- stokes equation, physical boundaryconditions. (5 hrs)

2. Mathematical behavior of governing equationClassification of quasi linear partial differential equation, General method of determining theClassification of partial differential equation, hyperbolic, parabolic, elliptic equations. (6 hrs)

3. Discritization methodsFinite difference methods, difference equations, explicit & implicit approach, errors & analysisof stability. Basics of finite control volume method, errors & analysis of stability. (10 hrs)

4. Heat conduction problemSolution of One dimensional heat conduction through a pin fin by F.D.M solution of twodimensional heat conductional in a plate by F.D.M. Control volume formulation of the heatconduction problem and its solution. (6 hrs)

5. Heat conduction with convection & diffusionSteady state one dimensional convection and diffusion, unwinding, exact solution, exponentialscheme, hybrid scheme, power law scheme, Discritization equation for two dimensions &three dimensions, false diffusion. (7 hrs)

6. Fluid flow problemViscous incompressible flow, solution of the couette flow problem by F.D.M., calculation of theflow field using stream function vorticity method numerical algorithms for solving completenavier stokes equation MAC method; SIMPLE method. (6 hrs)

Books recommended;1. Numerical heat transfer and fluid flow by suhas. V. patankar2. Computational fluid dynamics by John.d.Anderson, Jr3. Introduction to Computational fluid dynamics by Anil .W. Date


24/34


MTT512 AIR-CONDITIONINGL T P/D Cr.

3 1 - 3.5

1. Introduction and Human Comfort

Psychometric and psychometric properties, psychometric relations and processes, adiabatictemperature, psychometric chart, summer and winter air-conditioning system, year-round air-conditioning, factors influencing-human comfort, effective temperature, factors governingoptimum effective temperature. (8 hrs)

2. Cooling Load CalculationsTypes of loads, building heat transmission, solar-radiation infiltration, occupants, electric lights,products load, other internal heat sources, fresh-air miscellaneous steams, design of air-conditioning systems. (7 hrs)

3. Air Conditioning SystemsCentral station, unitary, distinct, self-contained direct expansion, all water, all air, air-watersystem, arrangement of components, air-cleaning and air filters, humidifiers, dehumidifiers air-

washers, fan and blowers, grills and registers. (7 hrs)

4. Air Conditioning Control SystemHeating and cooling coils, basic principles of control system, temperature humidity, pre-heatingand humidification, cooling and dehumidification, reheat and all-year conditioning controlsystems. Elements of control, Deflective element (bimetallic, bulbs and below, electricalresistance, electro magnetic sensitive and pressure sensitive, controlling room conditions atpartial load (ON-OFF control), by pass control, reheat control and volume control). (10 hrs)

5. MiscellaneousEvaporative cooling, heating system, ventilation and ventilation standards, thermal insulationduct design and air-distribution system, noise and noise control, solar air-conditioning.Transport air conditioning, air conditioning of special type of buildings, air conditioning of textile

industry, photographic industry, theatre auditorium, hospitals etc. (8 hrs)

Books Recommended:

1. Refrigeration and air conditioning by C.P. Arora.2. Refrigeration and air conditioning by Jordan and Priester3. Refrigeration and air conditioning by William4. ASHARAE Hand Book (Fundamentals) ASHARAE5. Elementary Refrigeration and air conditioning Stoecjer McGraw Hill6. Air Conditioning Engineering Jones Arnold.


25/34


MTT517 RENEWABLE ENERGY & ENERGY MANAGEMENT

L T P/D Cr.

3 1 - 3.5

1. Solar EnergyThe sun as a perennial source of energy, direct solar energy utilization; solar thermalapplications water heating systems, space heating and cooling of buildings, solar cooking,solar ponds, solar green houses, solar thermal electric systems; solar photovoltaic powergeneration; solar production of hydrogen. (6 hrs)

2. Energy from OceansWave energy generation energy from waves; wave energy conversion devices; advantagesand disadvantages of wave energy; Tidal energy basic principles; tidal power generationsystems; estimation of energy and power; advantages and limitations of tidal powergeneration; ocean thermal energy conversion (OTEC); methods of ocean thermal electricpower generation. (6 hrs)

3. Wind energyBasic principles of wind energy conversion; design of windmills; wind data and energyestimation; site selection considerations. (4 hrs)

4. Hydro power Classification of small hydro power (SHP) stations; description of basic civil works designconsiderations; turbines and generators for SHP; advantages and limitations. (5 hrs)

5. Biomass and bio-fuelsEnergy plantation; biogas generation; types of biogas plants; applications of biogas; energyfrom wastes. (5 hrs)

6. Geothermal energyOrigin and nature of geothermal energy; classification of geothermal resources; schematic ofgeothermal power plants; operational and environments problems. (5 hrs)

7. Energy conservation managementThe relevance of energy management profesion; general principles of energy managementand energy management planning; application of Paretos model for energy management;obtaining management support; establishing energy data base; conducting energy audit;identifying, evaluating and implementing feasible enrgy conservation opportunities; energyaudit report; monitoring, evaluating and following up energy saving measures/projects.(10 hrs)

References1. Renewable energy resources. John W Twidell and Anthony D Weir.2. Renewable energy power for sustainable future. Edited by Godfrey Boyle. Oxford

University Press in association with the Open University, 1996.3. Renewable energy sources and their environmental impact. S.A.Abbasi and Naseema

Abbasi. Prentice-Hall of India, 2001.4. Non-conventional sources of energy. G.D. Rai. Khanna Publishers, 2000.5. Solar energy utilization. G.D. Rai. Khanna Publishers, 2000.6. Renewable and novel energy sources. S.L.Sah. M.I. Publications, 1995.7. Energy Technology. S.Rao and B.B. Parulekar. Khanna Publishers, 1999.


26/34

MASTER OF TECHNOLOGY IN MECHANICAL ENGINEERING (THERMAL)MTT518 GAS TURBINE AND JET PROPULSION

L T P/D Cr.

3 1 - 3.5

1. IntroductionIntroduction to simple gas turbine; open cycles considering heat exchanger; reheater;multispool arrangement; combined cycles and cogeneration scheme; closed cycle; industrial

applications of gas turbine. (5 hrs)

2. Power CyclesEfficiencies & specific work output of heat exchanger cycles; reheat cycles; cycles withintercooled compression; various component loses. (5 hrs)

3. Combustion SystemsCombustion process; types of combustion systems; operational requirements; combustionchamber performance. (6 hrs)

4. TurbineAxial Flow Turbine- Elementary theory of axial flow turbine; swirl angle; total to total stageefficiency; flow coefficient; floe coefficient; loss coefficient for the nozzle blades; methods of

blade cooling.Radial flow turbine- specific work output; various efficiencies (9 hrs)

5. Jet Propulsion & Turbojet Engine:Introduction; net thrust; propulsion efficiency; intake & propelling nozzle efficiency; turbojetengine -actual cycle analysis ; typical engine performance; corrected engine performances;thrust augmentation. (6 hrs)

6. Turboprop & Ramjet Engine:Turboprop Engine process & cycle analysis; engine performances; Ramjet engine; jetexpansion; overall process and performance (5 hrs)

7. Rocket Engine

Solid and liquid propellant rocket motor cooling; propellant section; performance and design.(4 hrs)

BOOKS RECOMMENDED:1. Gas turbine theory by H. Cohen & GFC Rogers2. Jet propulsion and gas turbine theory gy Zucrow, John Wiley3. Jet propulsion by Hesse, Pitman4. Theory and design of gas turbine & jet engine by Vincent, Mcgraw Hill


27/34

MASTER OF TECHNOLOGY IN MECHANICAL ENGINEERING (MACHINE DESIGN)MTD501 COMPUTER AIDED DESIGN

L T P/D Cr.

3 1 - 3.5

1. IntroductionIntroduction, Review of vectors & Matrices, Basics of geometric and solid modeling, explicit,implicit, intrinsic and parametric equations, coordinate systems. (3 Hrs)

2. TransformationsIntroduction, transformation of points and line, 2-D translation, shearing, rotation, reflection,scaling and combined transformation, homogeneous coordinates, 3-D scaling, shearing,rotation, reflection and translation, combined transformations, orthographic, axonometric,oblique and perspective projections. (10 Hrs)

3. CurvesGeometry and topology, algebraic and geometric forms of straight lines, circles, conics, cubicsplines, Ferguson curve, Hermite curve, bezier curves and B-spline curves, NURBS,composite curves, tangents and normal, blending functions, reparametrization. (9 Hrs)

4. SurfacesAlgebraic and geometric forms, tangents and twist vectors, normal, blending functions,

reparametrization. Plane surface, sixteen point form, four curve form, ruled surface, surface ofrevolution, tabulated cylinder, lofted surface, bi-cubic surface, bezier surface, B-splinesurfaces, Coons patch, blending surface, offset surface, rational surface. (9 Hrs)

5. SolidsSolid models and representation schemes, their properties, boundary representation,constructive solid geometry, sweep representation, cell decomposition, octree encoding,spatial occupancy enumeration. (7 Hrs)

6. Analytical properties:Analytical properties (Intersection & development) of curves and surfaces. (2 Hrs)

Books Recommended:

1. CAD/CAM by Groover and Zimmer, Prentice Hall2. CAD/CAM: Theory and Practice by I. Zeid, McGraw Hill3. Geometric Modeling by M.E. Mortenson


28/34

MASTER OF TECHNOLOGY IN MECHANICAL ENGINEERING (MACHINE DESIGN)MTD502 APPLIED NUMERICAL METHODS

L T P/D Cr.

3 1 - 3.5

1. Approximations and Errors in ComputationsIntroduction, Numbers and their Accuracy, Errors and their Computation, Error in SeriesApproximation. (3 hrs)

2. Numerical Solution of Ordinary Differential EquationsIntroduction, Solution by Taylors Picards Method, Eulers Method, Runge-Kutta Methods,Predictor-Corrector Methods, the Cubic Spline Method, Simultaneous and Higher OrderEquations, Boundary Value Problems: Finite-Difference Method, The Shooting Method, TheCubic Spline Method. (9 hrs)

3. Numerical Solution of Partial Differential EquationsIntroduction, Finite-Difference Approximations, Laplaces Equation: Jacobis Method, Gauss-Seidel Method, SOR Method, ADI Method, Parabolic Equations, Iterative Methods, HyperbolicEquations. (9 hrs)

4. Numerical Differentiation and IntegrationIntroduction, Numerical Differentiation, Numerical Integration, Euler-Maclaurin Formula,

Adaptive Quadrature Methods, Gaussian Integration, Singular Integrals, Fouries Integrals,Numerical Double Integration. (6 hrs)

5. Least- square Curve Fitting and Function ApproximationIntroduction, Least-square Curve Fiting, Spline Inaterpolation,Cubic Splines, ChebyshevMinimax Approximation, Chebyshev Polynomials. (5 hrs)

6. Numerical Solution of Nonlinear SystemsIntroduction, Picard Iteration, Newtons Method, Perturbed Iterative Scheme. (2 hrs)

7. System of Linear Algebraic EquationsIntroduction, Methods for Large Linear Systems, Direct Methods, LU- Decomposition Methods,Iterative Methods, III-conditioned Systems. (6 hrs)

Books Recommended:1. Niyogi, Pradip, Numerical Analysis and Algorithms, Tata McGraw Hill

2. Balagurusamy,E., Numerical Methods, Tata McGraw Hill

3. Sastry, S.S., Introduction Methods of Numerical Analysis, PHI4. Chapra, S.C. and Canale, R.P., Numerical Methods for Engineers, Tata McGraw Hill5. Gerald, F. Curtis, Applied Numerical Analysis, Peason Educatio


29/34

MASTER OF TECHNOLOGY IN MECHANICAL ENGINEERING (MACHINE DESIGN)MTD503 DESIGN OF MECHANISMS

L T P/D Cr.

3 1 - 3.5

1. MechanismsReviews of concepts, transmission angle, methods of velocity and acceleration analysis,relative velocity and Instantaneous centre methods, Kennedys theorem. (4 Hr)

2. Path CurvatureCentrodes or polodes, fixed and moving centrodes, centrode normal and tangent, Euler-Savary equation, conjugate points, Hartmann construction, inflection point, inflection circle,Bobilliar construction, Collineation axis, Cubic of stationary curvature. (6 Hr)

3. Synthesis of MechanismsIntroduction, number synthesis, dimensional synthesis, spacing of accuracy points, motiongeneration, path generation and function generation, graphical and analytical methods,Freudensteins equation, coupler points. (4 Hr)

4. Complex-number Modeling in Kinematic SynthesisComplex number notation, the dyad or standard form equation, four-bar motion generation,

maximum number of solutions for unknown dyads, path and function generation, triad loops,synthesis of multi-loop linkages, Burmester theory, synthesis of geared mechanisms,Computer program. (8 Hr)

5. Dynamics of mechanismsAnalytical methods for force analysis of mechanisms, complex number methods, Kinetostaticanalysis using matrix method, time response of four-bar mechanisms, computer program.

(5 Hr)

6. BalancingForce and shaking moment balancing of linkages, Optimization of shaking moments, Effect ofmoment balance on input torque, balancing of flexible rotors, field balancing, computerprogram. (5 Hr)

7. Cam DynamicsRigid and elastic-body cam systems, analysis of eccentric plate cam, jump or float, torque-displacement diagram, analysis of an elastic cam system, follower command, spring surge,unbalance and windup. (4 Hr)

8. Kinematics of industrial robotsAbsolute and moving reference systems, direction cosines, Eulerian angles, Denavit-Heartenberg parameters, Transformation-matrix position analysis, matrix velocity andacceleration analysis. Computer programs. (4 Hr)

Books Suggested:

1. Theory of Machines by Shigley and Uicker Jr., McGraw-Hill2. Advanced Mechanism Design, by Sandor and Erdman, Prentice Hall of India3. Theory of machines by S S Rattan, Tata McGraw-Hill Publishing Co. Ltd., New Delhi4. Theory of mechanisms and Machines by Ghosh and Malik, Affiliated East-West Press, Pvt.

Ltd., New Delhi.


30/34

MASTER OF TECHNOLOGY IN MECHANICAL ENGINEERING (MACHINE DESIGN)MTD504 ADVANCED MECHANICS OF SOLIDS

L T P/D Cr.

3 1 - 3.5

1. Three Dimensional Stress and Strain:Principal stresses and Principal strains, Mohrs circle representation of tri-axial stresses andstrains. (8 hrs)

2. Unsymmetrical Bending:Shear centers for sections with one axis of symmetry. Shear center for any unsymmetricalsection, stress and deflection of beams subjected to unsymmetrical bending. (8 hrs)

3. Bending of Plates:Basic definitions, Stress, Curvature and Moment relations, Basic Equation of plate deflection.Different boundary conditions, simply supported rectangular plates, axis symmetric loadedcircular plates. (8 hrs)

4. Contact Stresses:Due to Two Spherical Surfaces in Contact, Due to Two Parallel Cylindrical Rollers in Contact,Due to Two Curved Surfaces of Different Radii. (4 hrs)

5. Buckling of Columns:Beam columns with single concentrated load, number of concentrated loads, continuous lateralload, end couple, couples at both ends of the column, triangular loads and combined loads.

(6 hrs)

6. Beam on Elastic Foundations:General Theory, Infinite, Semi-infinite, and Finite beams, Classification of Beams. Beamsupported by equally spaced elastic elements. (6 hrs)

Books Recommended:

1.Advanced Strength and Applied Elasticity by Ugural & Fenster, Prentice Hall.2.Advanced Mechanics of Solids by L., Srinath, TMH

3.Intermediate Mechanics of Materials by J. R. Barber, McGraw-Hill4.Introduction to Solid Mechanics by Shames & Pitarresi, PHI5. Advanced Topics of Strength of Materials by U.C. Jindal, Galgotia Publication.


31/34

MASTER OF TECHNOLOGY IN MECHANICAL ENGINEERING (MACHINE DESIGN)MTD505 ADVANCED MECHANICAL VIBRATIONS

L T P/D Cr.

3 1 - 3.5

1. Introduction to vibrationsBrief introduction to vibrations, its causes, advantages and disadvantages, classification: un-damped and damped vibrations, single and two degree of freedom models. Introduction tolateral, torsional and bending vibrations. Harmonic and harmonic analysis. Free and

harmonically excited vibrations. Vibrations under general forcing conditions. (6 hrs)

2. Vibrations of continuous systemTransverse vibrations of a cable, longitudinal and torsional vibrations of a rod, lateralvibrations of a beam, vibrations of membranes. Reyleighs method. Rayleigh-Ritz method.

(4 hrs)

3. Vibration ControlIntroduction, vibration nomograph and vibration criteria, reduction of vibration at the source,balancing of rotating machines, whirling of rotating shafts, balancing of reciprocating engines,control of vibrations, control of natural frequencies, vibration isolation, vibration absorbers.

(5 hrs)

4. Vibration measurement and applicationsIntroduction, transducers, vibration pickups, frequency measuring instruments, vibrationexciters, signal analysis, dynamic test of machines an structures, experimental modalanalysis, machine condition monitoring and diagnosis. (5 hrs)

5. Numerical Integration methods in vibration analysisIntroduction, Finite difference method, central difference method, Runge-Kutta methods forsingle, multi and continuous systems. Houbolt method, Wilson method, Newmark method.The finite element method. (6 hrs)

6. Non linear vibrationIntroduction, examples of non-linear vibration problems, exact methods, approximate analysismethods, sumharmonic and superharmonic oscillations, systems with time-dependent

coefficients (Mathieu equations), graphical methods, stability of equilibrium states, limitcycles, chaos. (6 hrs)

7. Random VibrationsRandom vibrations and random processes, probability distributions, mean value and standarddeviation, joint probability distribution of several random variables, correlation function of arandom process, Gaussian random process, fourier analysis, power spectral density, wideand narrow band process, response of a single degree of freedom system, response due tostationary random excitations, response of a multidegree system. (8 hrs)

Books Recommended1. Mechanical Vibrations by S.S. Rao, Pear and on Publication.2. Mechanical Vibration by Thomson, Printice Hall.

3. Mechanical Vibration by Den Hartog, McGraw-Hill


32/34

MASTER OF TECHNOLOGY IN MECHANICAL ENGINEERING (MACHINE DESIGN)MTD511 INDUSTRIAL ROBOTICS

L T P/D Cr.

3 1 - 3.5

1. Introduction to RoboticsEvolution of Robots and Robotics, Laws of Robotics, Progressive advancement in Robots.Robot anatomy, Human Arm Characteristics, Design and Control issue, Manipulation andControl, Programming Robots.

2. Coordinate Frames, Mapping and TransformsCoordinate Frames, Description of objects in space, Transformation of Vectors, Inverting aHomogeneous Transform, Fundamental Rotation matreies.

3. Direct Kinematic ModelMechanical structure and notations, Kinematic modeling of the manipulator, DenavitHartenberg Notation, Manipulator Transformation Matrix.

4. The Inverse KinematiesManipulator workspace, solvability of Inverse kinematics model, solution techniques, closedform solution.

5. Manipulator Differential Motion and StaticsLinear and angular velocity of a rigid body, relationship between transformation matrix and

angular velocity, manipulator Jacobian, Jacobian Inverse, Jacobian Singularities, StaticAnalysis.

6. Dynamic ModelingLargrangian Mechanies, Two Degree of Freedom manipulator-Dynamic Model, Lagrange-Euler formulation Newton-Euler formulation, Inverse Dynamics.

7. Control of ManipulatorsOpen and Close loop control, linear control schemes, linear second order SISO model of amanipulator joint. Joint Actuators, Computed Torque Control, force control of Robitics,Manipulators, Hybrid position/force control, Impedance Force/Torque Control.

8. Robotic Sensors

Sensors in Robitcs, classification of Robotic sensors, kinds of sensors used in robotics-Acoustic sensors optic, Pneumatic, force/Torque sensors.

9. Robot ApplicationsIndustrial Applications-Material Handling, Processing Applications, Assembly applications,inspection application, Principles for Robot application and application planning, Robertsafety, Non-Industrial Application.

10. Robert Languages and ProgrammingThe Textual Robot Languages, Generations of Robot Programming Languages, Methods ofRobot Programming.

Books Recommended

1. Fundamental of Robotics by Robert J. Sehilling Prentice Hall of India.2. Introduction to Robotics by Saeed B. Niku Pearson Education Asia.3. Robot Modeling and kinematics by Rachid Manseur, Luxmi Publications.


33/34

MASTER OF TECHNOLOGY IN MECHANICAL ENGINEERING (MACHINE DESIGN)MTD512 MEASUREMENT AND CONTROL

L T P/D Cr.

3 1 - 3.5

Part A Measurement

1. Measurements and Measurement Systems:Introduction, significance of measurement, methods of measurement, primary secondary andtertiary measurements, mechanical electrical and electronics instruments, applications ofmeasurement system, elements of a generalized measurement system and its functionalelements, classifications of standards, primary, secondary and working standards. (3 hrs)

2. Instrumentation Characteristics:Static and dynamic characteristics, first and second order systems response, classification &sources of error, loading facts, mechanical, electrical. (5 hrs)

3. Analysis of Experimental Data:Errors and uncertainties in experiments, role of statistics and variance types of data,presentation of the observations, criteria for rejecting data, specifying result of experiments,confidence level, uncertainty analysis, overall uncertainty. graphical analysis and curve fitting,theory of least squares, application in calibration, goodness of fit, significant figures androunding off. (6 hrs)

4. Transducers:General criteria for selection, strain gauge, rosettes; types, applications. Variable inductancetransducers, capacitive, piezo-electric transducers transducers.Advantages and limitations of digital transducers over analog transducers, digital encodingtransducers, classification of encoders, construction of encoders, shaft encoder, opticalencoder. (8 hrs)

Part B - Control5. Control systems:

Introduction, types of control systems, performance analysis, mathematical modeling, blockdiagram representation, representation of systems or processes, comparison elements, transferfunction, representation of temperature control systems, signal flow graphs. (6 hrs)

6. Types of controllers

Introduction, types of control action, hydraulic controllers, electronic controllers, controllers.(6 hrs)

7. Transient and steady state responseTime domain representation, laplace transform representation, system with proportional control,

proportional cum derivative control, proportional cum integral control, error constants. (6 hrs)

Books recommended:

1.A course in Mechanical Measurement & Instrumentation by A.K. Sawhney, Dhanpat Rai &Sons.

2.Mechanical Measurement by Beckwith & Buck3. Instrumentation for Measurement in Engineering by S. Gupta

4. Theory and application of Automatic Controls by B.C.Nakra.


34/34

MASTER OF TECHNOLOGY IN MECHANICAL ENGINEERING (MACHINE DESIGN)MTD517 FINITE ELEMENT METHODS

L T P/D Cr.

3 1 - 3.5

1. Introduction to Finite Element Method:Basic Concept, Historical background, Engineering applications, general description,

Comparison with other methods. (4hrs)

2. Integral Formulations And Variational Methods:Need for weighted-integral forms, relevant mathematical concepts and formulae, weakformulation of boundary value problems, variational methods, Rayleigh-Ritz method, andweighted residual approach. (10 hrs)

3. Finite Element Techniques:Model boundary value problem, finite element discretization, element shapes, sizes and nodelocations, interpolation functions, derivation of element equations, connectivity, boundaryconditions, FEM solution, post-processing, compatibility and completeness requirements,convergence criteria, higher order and isoparametric elements, natural coordinates, Langrangeand Hermite polynomials. (12 hrs)

4. Applications To Solid and Structural Mechanics Problems:External and internal equilibrium equations, one-dimensional stress-strain relations, planestress and strain problems, axis-symmetric and three dimensional stress-strain problems, straindisplacement relations, boundary conditions, compatibility equations, Analysis of trusses,frames and solids of revolution, computer programs. (10 hrs)

5. Applications To Heat Transfer Problems:Variational approach, Galerkin approach, one-dimensional and two-dimensional steady-stateproblems for conduction, convection and radiation, transient problems. (5 hrs)

6. Applications To Fluid Mechanics Problems:Inviscid incompressible flow, potential function and stream function formulation, incompressible

viscous flow, stream function, velocity-pressure and stream function-vorticity formulation,Solution of incompressible and compressible fluid film lubrication problems. (6 hrs)

7. Additional Applications :Steady-state and transient field problems. (10 hrs)

Books Recommended:1. The Finite Element Method by Zienkiewicz, Tata McGraw Hill2. The Finite Element Method for Engineers by Huebner, John Wiley3. An Introduction to the Finite Element Method by J.N.Reddy, McGraw Hill4. The Finite Element Method in Engineering by S.S. Rao, Pergamon Press

Documents

Production & Industrial Engineering (1)