SYLLABI

BTech IN

MECHANICAL ENGINEERING

2016

Department of Mechanical Engineering JAYPEE UNIVERSITY OF ENGINEERING & TECHNOLOGY

A-B ROAD, RAGHOGARH, DT. GUNA-473226 MP, INDIA TEACHING SCHEME

BACHELOR OF TECHNOLOGY (B.TECH.) BRANCH – ME

YEAR/SEM: IST YEAR/IST SEM

S.N. Sub Code Subject Type L T P Credits

1 14B11HS111 Presentation and Communication Skills Core 1 1 2 3

2

14B11MA111 Mathematics-I Core 3 1 0 4

3 14B11PH111 Physics-I Core 3 1 0 4

4 14B11EC111 Electrical Circuit Analysis Core 3 1 0 4

5 14B11CI111 Introduction to Computers and Programming

Core 3 1 0 4

6 14B17PH171 Physics Lab-I Core 0 0 2 1

7 14B17EC171 Electrical Circuits Lab Core 0 0 2 1

8 14B17CI171 Computer Programming Lab Core 0 0 4 2

Sub Total 23

YEAR/SEM: IST YEAR/IIND SEM

S. No. Code Title Core/ Elective

Credits

1 14B11HS211 Group and Cooperative Processes Core 2 1 0 3 2 14B19HS199 English (Audit Course) Elective 2 0 0 0 3 14B11MA211 Mathematics-II Core 3 1 0 4 4 14B11CL213 Engineering Chemistry Core 3 1 0 4 5 14B11EC315 Electrical Sciences Core 3 1 0 4 6 14B11ME211 Engineering Mechanics Core 3 1 0 4 7 14B11ME212 Material Science Core 3 0 0 3 8 14B17CL273 Engineering Chemistry Lab Core 0 0 2 1 9 14B17ME271 Workshop Practice Lab Core 0 0 2 1 10 14B17ME273 Engineering Drawing Lab Core 0 0 4 2

Sub Total 26

YEAR/SEM: IIND YEAR/IIIRD SEM

S. No. Code Title Core/Elective L T P Credits

1 14B11HS311 Managerial Economics Core 2 1 0 3

2 14B11GE211 Environmental Studies Core 2 1 0 3

3 14B11MA311 Numerical Methods Core 3 1 0 4

4 14B11ME311 Manufacturing Technology I Core 3 0 0 3

5 14B11ME312 Engineering Thermodynamics Core 3 1 0 4

6 14B11ME313 Strength of Materials Core 3 1 0 4

7 14B17ME371 Manufacturing Technology I Lab Core 0 0 2 1

8 14B17ME372 Engineering Thermodynamics Lab Core 0 0 2 1

9 14B17ME373 Strength of Materials Lab Core 0 0 2 1

10 14B17EC375 Electrical Sciences Lab Core 0 0 2 1

Sub Total 25

YEAR/SEM: IIND YEAR/IVTH SEM

S. No. Code Title Core/Elective

L T P Credits

1 14B11HS411 Financial Management Core 2 1 0 3

2 14B11ME411 Manufacturing Technology II Core 3 1 0 4

3 14B11ME412 Kinematics of Machines Core 3 1 0 4

4 14B11ME413 Fluid Mechanics Core 3 1 0 4

5 14B11ME414 Operation Research Core 3 1 0 4

6 14B17ME471 Manufacturing Technology II Lab Core 0 0 2 1

7 14B17ME472 Kinematics of Machines Lab Core 0 0 2 1

8 14B17ME473 Fluid Mechanics Lab Core 0 0 2 1

9 14B17ME474 Machine Drawing Lab Core 0 0 4 2

Sub Total 24

YEAR/SEM: IIIRD YEAR/VTH SEM

S. N. Code Title Core/Elective

L T P Credits

1 HSS Elective Elective 2 1 0 3

14B14HS541 Social & Legal Issues

14B14HS542 Human Psychology

14B14HS543 Professional Ethics

14B14HS544 Macro Economics

2 14B11ME511 Dynamics and Vibrations of Machinery Core 3 1 0 4

3 14B11ME512 Internal Combustion Engines Core 3 0 0 3

4 14B11ME513 Heat and Mass Transfer Core 3 1 0 4

5 14B11ME514 Design of Machine Elements Core 3 1 0 4

6 14B11ME571 Dynamics & Vibrations of Machinery Lab Core 0 0 2 1

YEAR/SEM: IIIRD YEAR/VITH SEM

7 14B17ME572 Internal Combustion Engines Lab Core 0 0 2 1

8 14B17ME573 Heat and Mass Transfer Lab Core 0 0 2 1

9 14B17ME574 Design of Machine Elements Lab Core 0 0 2 1

10 DE I Elective 3 0 0 3

Sub Total 25

List of Electives for DE-1 Core/ Elective

L T P Credits

1 14B14ME541 Unconventional Energy Sources Elective 3 0 0 3

2 14B14ME542 Non Destructive Methods of Inspection Elective 3 0 0 3

3 14B14ME543 Mechatronics Elective 3 0 0 3

S. No.

Code Title Core/ Elective

L T P Credits

1 HSS Elective Elective 2 1 0 3

14B14HS641 Project Management

14B14HS642 Business Environment

14B14HS643 Fundamentals of Financial Market

14B14HS644 Marketing Management

2 14B11ME611 Computer Aided Design Core 3 0 0 3

3 14B11ME612 Refrigeration & Air-Conditioning Core 3 1 0 4

4 14B11ME613 Advanced Manufacturing Processes Core 3 1 0 4

5 14B11ME614 Computer Aided Manufacturing Core 3 0 0 3

6 14B11ME615 Measurement and Control Core 3 0 0 3

7 14B17ME671 Computer Aided Design Lab Core 0 0 2 1

8 14B17ME672 Refrigeration & Air-Conditioning Lab Core 0 0 2 1

9 14B17ME674 Computer Aided Manufacturing Lab Core 0 0 2 1

10 DE II Elective 3 0 0 3

11 Audit Industrial Training* Audit 0 0 0 0

Sub Total 26

YEAR/SEM: IVTH YEAR/VIITH SEM

List of Electives for DE-II

Core/ Elective

L T P Credits

1 14B14ME641 Power Plant Engineering Elective 3 0 0 3

2 14B14ME642 Maintenance Engineering Elective 3 0 0 3

3 14B14ME643 Laser Material Processing Elective 3 0 0 3

S. No. Code Title Core/ Elective

L T P Credits

1 HSS Elective Elective 2 1 0 3

14B14HS741 Entrepreneurial Development

14B14HS742 Managing & Marketing of Technology

14B14HS743 Entrepreneurship and Small Business

14B14HS744 Marketing Management

14B14HS745 Human Resource Management

14B14HS746 Total Quality Management

2 14B19ME791 Project Part-I Core 0 0 14 7

3 14B11ME711 Additive Manufacturing Core 3 0 0 3

4 14B17ME771 Additive Manufacturing Lab Core 0 0 2 1

5 DE III Elective 3 0 0 3

6 DE IV Elective 3 0 0 3

7 DE V Elective 3 0 0 3

Sub Total 23

List of Electives for VII Sem Core/ Elective

L T P Credits

DE III

1 14B14ME741 Energy Conversion and Audit Elective 3 0 0 3

2 14B14ME742 Advanced Mechanics of Solids Elective 3 0 0 3

3 14B14ME743 Metrology Elective 3 0 0 3

DE IV

1 14B14ME744 Design of Heat Exchangers Elective 3 0 0 3

2 14B14ME745 Reverse Engineering Elective 3 0 0 3

3 14B14ME746 Plant Layout & Material Handling Elective 3 0 0 3

YEAR/SEM: IVTH YEAR/VIIITH SEM

DE V

1 14B14ME747 Gas Turbines & Jet Propulsion Elective 3 0 0 3

2 14B14ME748 Composite Materials Elective 3 0 0 3

3 14B14ME749 Industrial Statistical Quality Control Elective 3 0 0 3

S. No. Code Title Core/

Elective

L T P Credit

1 HSS Elective Elective 2 1 0 3

14B14HS841 Knowledge Management

14B14HS842 Industrial Psychology

14B14HS843 Business Environment

14B14HS844 Management of Technology

14B14HS845 Strategic Management

2 14B19ME891 Project Part-II Core 0 0 16 8

3 DE VI Elective 3 0 0 3

4 DE VII Elective 3 0 0 3

5 DE VIII Elective 3 0 0 3

6 DE IX Elective 3 0 0 3

Total Sub Total 23

S. No. Code Title Core/

Elective

L T P Credit

1 HSS Elective Elective 2 1 0 3

14B14HS841 Knowledge Management

14B14HS842 Industrial Psychology

14B14HS843 Business Environment

14B14HS844 Management of Technology

14B14HS845 Strategic Management

2 14B19ME891 Project Part-II Core 0 0 16 8

3 DE VI Elective 3 0 0 3

4 DE VII Elective 3 0 0 3

5 DE VIII Elective 3 0 0 3

6 DE IX Elective 3 0 0 3

Total Sub Total 23

List of Electives for VIII Sem Core/ Elective

L T P Credits

DE VI

1 14B14EC749 Introduction to Microprocessors & Microcontrollers

Elective 3 0 0 3

2 14B14PH731 Nanoscience and Technology Elective 3 0 0 3

3 14B14MA845 Mathematical Methods in Engineering Elective 3 0 0 3

4 14B14PH744 Nonlinear Dynamics Applications Elective 3 0 0 3

DE VII

1 14B14ME841 Computational Fluid Dynamics Elective 3 0 0 3

2 14B14ME842 Tribology Elective 3 0 0 3

3 14B14ME843 Reliability Engineering Elective 3 0 0 3

4 14B14ME844 Production Planning and Control Elective 3 0 0 3

DE VIII

1 14B14ME845 Fundamentals of Compressible Flow Elective 3 0 0 3

2 14B14ME846 Robotics Engineering Elective 3 0 0 3

3 14B14ME847 Energy Management Principles Elective 3 0 0 3

DE IX

1 14B14ME848 Turbomachinery Elective 3 0 0 3

2 14B14ME849 Automobile Engineering Elective 3 0 0 3

3 14B14ME850 Finite Element Technique Elective 3 0 0 3

4 14B14ME851 Concurrent Engineering Elective 3 0 0 3

YEAR/SEM: IST YEAR/I SEM 14B11HSS111 PRESENTATION AND COMMUNICATIONS SKILLS

Introduction to Communication, Oral Communication skills: Stress, Rhythm, Intonation, Coherence, Phonetics etc., Listening Skills, Reading Skills: Intensive and Extensive Reading, SQ3R, Vocabulary and morphology, Writing Skills: Letter Writing, Circulars, Notices, Agenda, Minutes, Report Writing, Power point presentation.

14B11MA111 MATHEMATICS-I

Partial differentiation, Taylor’s series, Maxima and Minima, Jacobians, Double integrals Equations to a line, plane, curve and surfaces, Line and surface integrals, Gradient, divergence and curl, Normal and tangent to a surface, Gauss and Stokes theorems, Differential Equations with constants coefficients, Laplace transforms, Algebra of matrices, Determinants, Gauss elimination method, Rank, Eigen values and vectors, Quadratic forms.

14B11PH111 PHYSICS-I

Physical Optics: Analytical treatment of interference, Intensity distribution of fringe system, Fresnel’s biprism, Newton’s rings, Diffraction (limited to Fraunhofer class) from Single slit, double slit and Diffraction grating, Polarization, Phenomenological understanding of Birefringence, Principles of use of uniaxial crystals in practical polarizer’s, compensators and wave plates, Production and analysis of completely polarized light. Optical activity. Relativity: Michelson-Morley experiment, Lorentz transformations, Addition of velocities, Mass variation with velocity, Mass-energy relation. Radiation: Black body radiation, Wien’s law, Rayleigh Jean’s law, Planck’s law of radiation, Compton scattering. Atomic Structure, Origin of spectral lines, spin and orbital angular momentum, Quantum numbers, Atoms in magnetic field, Zeeman Effect. Statistical Distributions: Maxwell-Boltzmann, Bose-Einstein and Fermi-Dirac distributions and their applications. Lasers: Principle and working of laser, Different types of lasers (He-Ne Laser, Ruby Laser, Semiconductor Laser), Holography.

14B17PH171 PHYSICS LAB-I

Experiments List

1. To study the variation of magnetic field along the axis of Helmholtz Galvanometer and to determine its reduction factor. [Set-up no. 1 & 11]

2. To determine the specific rotation of cane sugar solution using Biquartz polarimeter. [Set-up no. 2 & 12]

3. To observe Newton’s rings and to determine the wavelength of sodium light [Set-up no. 3 & 13] 4. To determine the wavelengths of spectral lines Red, Green and Violet of mercury using plane

transmission grating. [Set-up no. 4 & 14]

5. To study the presence of energy levels in an atom by Franck-Hertz Experiment. [set-up no. 5 & 15]

6. To determine the resistance per unit length of a Carey Foster’s bridge and to obtain the specific resistance of a given wire. [Set-up no. 6 & 16]

7. To determine the Planck’s constant using solar cell. [set-up no. 7 & 17] 8. To determine the wavelength of sodium light with the help of Fresnel’s biprism. [set-up no. 8 &

18] 9. To draw hysteresis loop of a ferromagnetic material & calculate its retentivity and coercivity.

[set-up no. 9 & 19] 10. To study ultrasonic waves in aluminium and to obtain Young’s modulus for it. [set-up no. 10 &

20]

14B11EC111 ELECTRICAL CIRCUIT ANALYSIS

Introduction to circuit elements R, L, C and their characteristics, Different types of sources (like AC and DC, current and voltage, dependent and independent), KCL and KVL, Node and Loop analysis, Star and Delta conversion, Thevenin’s and Norton’s theorem, Superposition, Reciprocity, Maximum Power Transfer, Graph Theory, Tree and links, planar networks, Ideal opamp as a circuit element, AC waveform analysis frequency, phase, amplitude, peak, RMS and average value of ac waveform.

Single phase ac circuit analysis containing R, L and C, and their combinations, Concepts of impedance, power, active, reactive and apparent power and power factor, Series and parallel resonance, bandwidth and quality factor, Concept of 3-phase ac circuits, star and delta connections, Frequency domain analysis – Laplace transform solution of Integral differential equations, Forced and natural responses, Transient analysis, Concept of two-port Network, Z, Y, transmission (ABCD) and Hybrid parameter, Introduction to electrical filters and transmission line.

14B17EC171 ELECTRICAL CIRCUIT LAB

List of Experiments

Experiment No. 1: To familiarization with the Digital multimeter (DMM) and measurement of various signals and circuit elements. Experiment No. 2: To familiarization with the CRO, Function generator and power supply. Experiment No. 3: (a) To study & draw the volt-ampere characteristics of the resistor.

(b) To study the loading effect of a voltmeter. Experiment No. 4: To verify Thevenin’s Theorem. Experiment No. 5: To verify Tellegen’s Theorem. Experiment No. 6: To verify Superposition Theorem. Experiment No. 7: To verify Reciprocity Theorem. Experiment No. 8: To verify Maximum Power Transfer Theorem. Experiment No. 9: To determine the Z parameters of the given two port network.

Experiment No. 10: To determine the Y parameters of the given two port network. Experiment No. 11: To sketch the transient response of RC Low pass filter. Experiment No. 12: To sketch the transient response of RC High pass filter.

14B11CI111 INTRODUCTION TO COMPUTER PROGRAMMING

Introduction to Programs, Processing programs, Types of Programming Languages, Programming Design tools (Pseudo code and Flowcharts), Program Design, Structured Programming, Problem solving and programming, Quality aspects of structured programs, Testing and Debugging Techniques, Self Learning of Pascal.

14B17CI171 COMPUTER PROGRAMMING LAB

Initial exercises on MS office, Familiarity with Microsoft word, Familiarity with Microsoft power point, Familiarity with Microsoft excels, Pattern generating problems, Loop Control and Case Control Structures, Arrays and Strings, Functions and Pointers, Structures and Union, Recursion, Dynamic Memory Allocation, linked-lists, File I/O, C Library. YEAR/SEM: IST YEAR/II SEM 14B11HSS211 GROUP AND COOPERATIVE PROCESS

Group- Behavior, Development, Structure and Process, Team- Types and Contemporary issues, Individual--Personality, Learning, Perception, Values, Attitudes and Job satisfaction, Assertiveness- Communication Styles, self expression, Social Boldness, Emotional intelligence, Transactional Analysis- Ego states, Life position, Transaction, Stroking, Motivation, Leadership, Conflict and Negotiation.

14B19HS199 ENGLISH

Conversational Skills, Vocabulary and comprehension, Functional English Grammar: Noun, Pronoun, Verb, Tenses, Narration, Active and Passive voices, Clause etc., Compositions and Translations.

14B11MA211 MATHEMATICS-II

Second order linear differential equations, Convergence of series, convergence tests, solution in series, Bessel’s and Legendre functions, Chebyshev p~omials and orthogonality, Second order partial differential equations and classification, one dimensional, Wave and diffusion equations with their applications, Functions of complex variable, analytical functions and Cauchy-Riemann, Equations. Conformal mapping, Poles and singularities, complex integration, Taylor's and Laurent's series, Cauchy residue theorem, contour integration and their application. 14B11ME211 ENGINEERING MECHANICS

Idealization of mechanics, Concept of rigid body, External forces (body forces & surface forces), Laws of mechanics. Introduction to vector, Statically equivalent force systems (planar and spatial), Free body diagram, Equations of equilibrium and their applications to various system of forces, Variation mechanics.Plane trusses, Space trusses, Method of joints, Method of section, Graphical method, Frames and machines. centroid of composite figures, Area moment of inertia, Mass moment of inertia, Principle axes and principle moment of inertia. Introduction of friction, Laws of friction, Wedge, Screw, Belt, and Rolling friction. Different support & loading conditions of Beam, Shear force diagram (SFD), Bending moment diagram (BMD).Velocity and acceleration, Rotation of rigid bodies, Rolling motion, Plane motion of rigid bodies, Effective forces on a rigid body, D'Alembert's principle, Force, Mass and Acceleration, Work and energy, Impulse and momentum.

14B11ME212 MATERIALS SCIENCE

Classification of materials, Properties of materials– Mechanical, electrical, thermal, magnetic, optical, decorative and its applications, Modern materials – Smart materials, Bio and Nano materials; Atomic models and Chemical bonding. Concept of unit cell space lattice, Bravais lattices, Common crystal structures, Atomic packing factor and density, Miller indices, X-ray Crystallography techniques. Properties of metals, Deformation of metals, Mechanism of deformation, Mechanical testing of materials, System, phases and structural constituents of phase diagrams, Gibb’s solid phase rule, Lever rule, Iron-Carbon Equilibrium-Diagram and its importance, Concept of solidification of metals. Iron and steel manufacture, Furnaces, Various types of carbon steels, Alloy steels and Cast irons, its properties and uses. Purpose and classification of heat treatment processes, Non-ferrous metals, ceramics. Mechanical/Electrical behavior and processing of Ceramics. Various types of polymers/plastics and its applications. Mechanical behavior and processing of plastics. Future of plastics. Composite Materials and its uses.

14B11CL213 ENGINEERING CHEMISTRY Water &its treatment: Hardness of water, softening of water by lime –soda process and reverse osmosis, Treatment of boiler feed water by Calgon process, Zeolites and ion-exchange resins. Atomic structure: Brief review of modern & atomic concepts in chemistry, Atomic model Chemical bonding: Molecular theory of diatomic hetro-molecular, Band theory of bonding in metals, Hydrogen bonding. Electorchemistry: Electrochemical cell, Galvanic cell and concentration cells, Equilibrium Potential, Electrochemical theory of corrosion and protections of corrosion. Fuels: Classification of fuels, Determination of gross and net calorific values using Bomb Calorimeter, Conventional and non-conventional fuels, Renewable and non-renewable fuels. Composite materials: Constituents of composites, Types of composites, Processing of fiber-reinforced composites, Micromechanics of fibre and particle reinforced composites. Metal & alloys: Introduction, Physical properties of metals, Metallurgy, Alloy steels and its applications. Lubricants and greases: Lubricants and their roles in machines, Types of greases, Chemical composition. Ceramics & polymers. Clays, silica, feldspars, Method for fabrication of ceramic ware, Bio-degradable polymers and their utility. Crystallography and imperfections: Concept of unit cell space lattice, Bravais lattices, Common crystal structures, Atomic packing factor and density, Miller indices, X-ray crystallography techniques, Imperfections, Defects & Dislocations in solids.

14B11EC315 ELECTRICAL SCIENCE

Principle of Operation, EMF Equation; Ideal Transformer, Conditions for Ideal Transformer, Transformation Ratio, Volt-Amperes, Impedance Transformation. Effect of Core Losses: (i) Hysteresis Loss, (ii) Eddy-Current Loss; Ideal Transformer on Load; Practical Transformer on Load , Phasor Diagram (No Load, Resistive, Inductive, Capacitive Load). Types of semiconductors: Elemental and compound semiconductors, Intrinsic and extrinsic semiconductors, PN junction, I-V characteristics of p-n junction diode and breakdown diode, Operating principle and terminal currents of BJT, I-V characteristics of BJT , Ebers-Moll equations and regions of operations, Charge control equations , Switching characteristics of semiconductor diode, BJT, Switching and power transistors. Difference Amplifiers, Constant Current Source (Current Mirror), Level Translator and Shifter, Op Amp (741); Practical Integrator & Differentiator Circuits; Linear wave shaping, clipping, clamping and Comparators, Use of ICs and 555 in free running and monostable multivibrators, Schmitt Triggers. Sweep generators. Arithmetic using 2’s complementparity bit & error-detection, Hexadecimal code, weighted codes – BCD, Excess-3 code, Gray Code and Alphanumeric code, Encoders and Decoders, Code Conversion. Boolean algebra, SOP, POS, Minimization of Boolean Expressions/Functions using Karnaugh map, Limitations of K-map, Multiplexer/ Demultplexers, Arithmetic circuits, adders, subtractors, Flip Flops: SR, JK, Master slave J-K, T and D Flip Flops, shift registers and counters, and their application. Architecture, Organization & Programming of 8 bit microprocessor (Intel 8085). Instruction set, data transfer, Arithmetic and logical operations, Assembly language programming. RAMs, ROMs, EPROMs, I/O systems as employed in microcomputers, Program controlled I/O interrupts. Electro-Mechanical Energy-Conversion Machines: Power Considerations for a Generator; Power Considerations for a Motor; Type of Rotary Machines. General Characteristics of the Synchronous Machine; Synchronous Speed; Rotating Magnetic Flux due to Three-Phase Currents; Synchronous Motors; Phasor Diagrams for Generator and Motor; Constant Speed Operation; Operation of a Synchronous Motor: Effect of Change in Mechanical Load, Effect of Change in Excitation, Synchronous Condenser. Principle of Working; Slip of Induction Motor; (Frequency of Rotor Currents, Speed of Rotation of Rotor-Field); Construction of Induction Motor (Squirrel Cage Rotor, Wire- or Phase-Wound Rotor). Rotor EMF, Current and Power Factor (Rotor Impedance, Rotor current, Power Factor).

14B17ME271 WORKSHOP PRACTICE LAB

(A) Welding Shop 1. To study about various welding processes and the tools and equipments use in welding shop. 2. To prepare a joint (lap/ butt/ T) using gas welding. 3. To prepare a lap joint using spot welding. 4. To prepare a joint (lap/ butt/ T) using electric arc welding.

(B) Foundry Shop 5. To study about tools and equipments use in foundry shop and how to make a mould.

6. To prepare a green sand mould using single piece/split pattern. 7. To prepare an aluminium sand casting using the mould prepared by the students.

(C) Machine Shop 8. To study about various machine tools (lathe, milling, shaper, drilling, grinding and EDM drill)

available in machine shop. 9. To study about various machining process performed on lathe machine tool in detail and to

study the cutting tools used for various machining processes in lathe. 10. To perform facing, step turning, taper turning and knurling on a given work-piece material. 11. To perform threading on a given work-piece.

(D) To study about the carpentry, fitting and sheet-metal shop. 12. To study about the job holding devices, machine tools 13. To study about the measuring, marking, cutting and plain tools

10B17CL273 ENGINEERING CHEMISTRY LAB

LIST OF EXPERIMENTS

1. Determination of alkalinity in the given sample.

2. Determination of Acidity in given water sample.

3. Determination of temporary & permanent hardness in the water sample using EDTA method as Standard solution.

4. Determination of available chlorine in bleaching powder.

5. pH- metric titration

6. Detection of hetro element in given organic compounds e.g. N,S, Cl, Br, I.

7. Detection of functional group in given organic compounds e.g. –OH, -CHO , >C=O.

8. Standardization of acid, base and salt solution.

9. Determination of Saponification value of oil.

10. Determine the iodine value of given lubricating oil.

11. Determination of Acid value of a given sample.

12. To study the given polymer/ ceramic material.

13. Determination of viscosity of heavy oil.

14B17ME273 ENGINEERING DRAWING LAB

GRAPHICS 1. Introduction, Use of Drawing Instruments, Lines, ISI code, Lettering-Gothic Vertical and Italic. 2. Geometrical constructions, scales, conic sections, special curves- Construction of Ellipse,

Parabola, Hyperbola, Cycloid, Epicycloids etc. 3. Various types of projections, First and third angle systems of orthographic projections,

Projection of points in different quadrants 4. Projection of straight lines parallel to one or both reference planes, perpendicular to one of the

planes, inclined to one plane but parallel to the other planes, inclined to both the planes. 5. Projections of solids. 6. Surface development. 7. Isometric projections of solids from orthographic and vice-versa.

AUTOCAD 1. Introduction to different tool bars in AutoCAD 2. To Draw Orthographic Views (Front, Top and Side) using AutoCAD 3. To Draw Isometric Drawings using AutoCAD 4. To Draw different types of bolts and nuts with internal and external threading. 5. To draw assembled full sectional front, top and side view of cotter joint 6. To draw assembled full sectional front, top and side view of knuckle joint. 7. Introduction to Solid Modeling commands using AutoCAD. 8. To draw 3D models by extruding simple 2D objects, dimension and name the objects.

YEAR/SEM: IIND YEAR/III SEM

14B11HS311 MANAGERIAL ECONOMICS

Introduction to Managerial Economics & Macro-economic Concepts: Definition of Economics, Meaning & Scope of Managerial Economics, Micro & Macro Economics, Concept of economic profit, (Opportunity Cost), Concept of Present value. Demand Analysis: Law of demand, Individual & market demand, Determinants of market demand, Marginal Utility theory, Elasticity of demand– Price, Income, Cross, Advertising Theory of Consumer choice using Indifference Curve analysis, Demand forecasting techniques, Delphi, Survey, Time series analysis. Production Theory and Analysis: Production with one variable, optimal employment of a factor of production, Cobb Douglas production function, Production with two variable inputs, Production Isoquants, Production Isocosts, Optimal employment of two inputs, the expansion path, Basics of Supply, Market Equilibrium. Cost Theory and Analysis: Cost concepts – Opportunity, Explicit, Marginal, Incremental and Sunk, Relation between Production & Cost, Short run cost function, Long run cost function, Special topics -Profit contribution analysis, - Break Even analysis, Operating Leverage. Pricing under Different Market Structures: Perfect Competition - Determination of Price output relationship in short run, long run, Monopoly Determination of Price output relationship in short run & long run, Price discrimination, Monopolistic

Competition- Determination of Price output relationship in short run & long run, Product Differentiation, Oligopoly- Types, Determination of Price output relationship, Kinky demand curve {Stickiness of Price}, Price leadership model. 14B11GE211 ENVIRONMENTAL STUDIES

The Multidisciplinary nature of environmental studies: Definition, scope and importance, Need for public awareness, Types of Ecosystems, World Biomes, Ecosystem functioning, biogeochemical cycles. Natural resources, their consumption & Protection: Water, Land Energy (Renewable, non-renewable, wind, solar, hydro, Biomass), Mineral, Forest, & Food resources, Role of an individual in conservation of natural resources, Equitable use of resources. Pollution- a threat to environment: Air, Water & Land pollution, sources & causes, Space pollution, causes & effects, toxicity limits of pollutants. Critical issues concerning global Environment (Urbanization, population growth, global warming, climate change, acid rain, ozone depletion etc.) and the Roots in: Cultural, Social, Political, Commercial, industrial, territorial domains. Biodiversity loss: Diversity of flora and fauna, species and wild life diversity, Biodiversity hotspots, threats to biodiversity. Environmental Impact assessment: Objectives of impact assessment, Study of impact parameters, Methods for impact identification, Economics. Environmental standards & Quality: Air, Water & Soil Quality, Pollutant sampling, pollution control systems, Sustainable building, Urban planning, Disaster Management and Contingency Planning, Modern safety systems. Sustainability & Planned reversal of human destruction to environment: redevelopment of brown fields, energy plantations, social forestry, engineering aspects of Re-use & Recycling, biogas for marginal income groups, organic farming, eco-consumerism, dematerialization, green technologies, eco-tourism. Regulation of technology and innovation, Policy and law: Environmental Laws & Regulations (Different Acts – Environmental Protection Act, Air and Water Acts, Wildlife and Forest Acts), US-EPA, National Environmental Policy.Function of pollution control boards (SPCB and CPCB), their roles and responsibilities, Eco-mark Scheme, Laws relating to Urbana and Rural land use, Ethics. Case studies: Industry–Environment interface, Field Work: Explore the surrounding flora & fauna (Study of common plants, insects, birds document environmental assets), documentation of industries in local region and their possible effects, measure of water, air and land quality, Visit to a local polluted site-Urban/Rural /Industrial / Agricultural, Study of simple ecosystems-pond, river, hill slopes etc. 14B11ME311 MANUFACTURING TECHNOLOGY I

Introduction to Casting: Requirements of casting, Basic principle of casting, Sand Moulding and Core Making: Pattern materials, Pattern types, Allowances on pattern Types and properties of moulding sand, Sand conditioning, Sand moulding methods and types, Types of core, Core sand and core making, Moulding and core making machines, Special Sand Moulding Processes( based on sodium silicate and organic binders), Investment casting, Full mould casting, Plaster moulding, Vacuum moulding, VRH process Permanent Mould Casting and Other Casting Methods: Permanent mould casting, Pressure die casting, Low pressure die casting, Squeeze casting, Centrifugal casting, Continuous casting. Gating

System design, Melting, Pouring and Shakeout : Requirement of gating system and risers in casting, Components of gating system, Types of gates and risers, Design of gating system and riser, Use of chaplets, chills, pads and exothermic materials in sand casting, Various melting furnaces, Solidification of casting (nucleation and grain growth), Casting shakeout, Casting defects and their remedy. Introduction to Welding: Requirement of welding, Classification of welding, Welding and Allied Process: Gas welding, Gas cutting, Brazing, Welding: Welding arc, Power source for arc welding, Arc welding consumables, Metal transfer in arc welding, Principles, setup, metallurgy, position, variants and application of different arc welding techniques: SMAW, SAW, GTAW, GMAW, Electroslag welding, Electrogas welding. Bulk metal deforming: Elastic and plastic deformation, Yield and flow criteria, Concept of strain hardening, Hot and cold working, classification of metal deforming processes -rolling, forging, extrusion, swaging, wire and tube drawing. Machine and equipments for the metal deforming processes, Parameters and force calculations for different processes. Sheet metal deforming and cutting: Role of sheet components, Shearing mechanism, various press working operations. Presses for sheet metal working; Part feeding systems; Elements of die, punch and die clearances, Progressive, compound and combination dies; Forming processes like bending, cup drawing, coining, embossing, etc.

14B11ME312 ENGINEERING THERMODYNAMICS

Macroscopic and microscopic approaches, Property, Equilibrium, State, Process, Quasi-static processes, Cycle, Laws of thermodynamics, Steady and unsteady flow processes. Energy and its forms, Energy and first law of thermodynamics, Boundary work, Work done in different processes, Specific heat and its variations for ideal gas, solids and liquids, Internal energy and enthalpy, PMMI, Steady flow energy equation, First law applied to non- flow process, Steady flow process, Nozzle and diffusers, Turbine and compressors, Throttling valve, mixing chambers, heat exchanger, transient flow process, and free expansion process. Limitations of first law, Thermal reservoir, Heat source and heat sink, Heat engine, Refrigerator and heat pump, Kelvin - Planck and Clausius Statements and their equivalence, Carnot's theorem, Carnot's cycle, Entropy, Entropy change for ideal gas, T-S diagrams, Availability and irreversibility, Gibbs and Helmholtz functions. High and low grade energy, Availability and unavailable energy, Loss of available energy due to heat transfer through a finite temperature difference, Dead state of a system, Availability of a non-flow or closed system, Availability of a steady flow system, Helmholtz and Gibb’s functions. Pure substance and its properties, Phase and phase transformation, Vaporization, Evaporation and boiling, Saturated and superheat steam, Solid – liquid – vapour equilibrium, T-V, P-V and P-T Plots during steam formation, Properties of dry, wet and superheated steam, Property changes during steam processes, Temperature – Entropy (T-S) and Enthalpy – Entropy (H-S) diagrams, Throttling and measurement of dryness fraction of steam. T-ds relations, Maxwell equations, Joule-Thomson coefficient, coefficient of volume expansion, adiabatic and isothermal compressibilities, Clapeyron equation. Two stroke and four stroke engines, Otto cycle, Diesel cycle, Brayton cycle. PVT relationship, Mixture of ideal gases, Properties of mixture of ideal gases.

14B11ME313 STRENGTH OF MATERIALS

Force-deformation relationship and geometric compatibility (for small deformations) with illustrations through simple problems on axially loaded members and thin-walled pressure vessels. Stress-strain diagram, Ductile & brittle material, Stress vs strength, Toughness, Hardness, Fracture, Fatigue and Creep, Testing methods such as Strength testing, Hardness testing, Impact testing, Fatigue testing, Creep testing, Nondestructive testing. Concept of stress at a point, Transformation of stresses at a point, Principal stresses, Mohr’s circle, Concepts of isotropy, orthotropy and anisotropy, Generalized Hooke’s law (without and with thermal strains), Complete equations of elasticity, Complete elastic solution of a thick walled cylinder, Theories of elastic failure, Torsion of solid and hollow circular shafts and thin-walled tube. Bending of beams with symmetric cross-section (normal and shear stresses) , Combined bending and torsion, Yield criteria, Deflection due to bending, Integration of themoment-curvature relationship for simple boundary conditions, Castigliano’s theorem, Superposition principle. Column under axial load, Concept of elastic instability, Introduction to column buckling, Euler’s formula. Concepts of strain energy, Castigliano’s theorems for deflection analysis and indeterminate problems. 14B17ME371 MANUFACTURING TECHNOLOGY I LAB LIST OF EXPERIMENTS

1. To test the moisture content of green sand. 2. Press work experiment such as blanking/piercing, washer making etc. 3. Wire drawing on soft material. 4. Extrusion experiment on soft material. 5. To perform Sheet bending operation. 6. Injection moulding with plastics. 7. To determine the grain fineness number. 8. Design and making of pattern for a desired casting (containing hole). 9. Hand forging experiments. 10. Gas welding experiment 11. Arc welding experiment 12. Resistance welding experiment. 13. Soldering & Brazing experiment 14. Study of Macrostructure of welding joints and Microstructure - Heat Affected Zone (HAZ).

14B17ME372 ENGINEERING THERMODYNAMICS LAB LIST OF EXPERIMENTS

1. Study of two stroke Petrol Engine. 2. Study of four stroke Petrol engine. 3. Study of two stroke Diesel engine. 4. To determine the dryness fraction by separating calorimeter. 5. Study of four stroke Diesel engine. 6. Study of simple vertical Boiler.

7. Study of Locomotive Boiler. 8. To determine the dryness fraction by throttling calorimeter. 9. Study of Babcock Wilcox Boiler. 10. Study the models of steam turbines 11. To determine the dryness fraction by bomb calorimeter. 12. To determine the calorific value of fuel by bomb calorimeter. 13. Study the models of gas turbines. 14. Study the models of Steam Engines. 15. To determine the CO2 value of exhaust from engine by CO2 recorder (smoke meter).

14B17ME373 STRENGTH OF MATERIALS LAB LIST OF EXPERIMENTS

1. To study the Rockwell hardness testing machine & perform the Rockwell hardness test. 2. To study the Brinell hardness testing machine & perform the Brinell hardness test. 3. To study the Vickers hardness testing machine & perform the Vickers hardness test. 4. To study the Impact testing machine and perform the Izod test. 5. To study the Impact testing machine and perform the Charpy test. 6. To study the Universal Testing Machine (UTM) and perform the tensile test. 7. To perform compression test on UTM. 8. To perform bending test on UTM. 9. To perform the sheer test on UTM. 10. To study the torsion testing machine and perform the torsion test. 11. To perform the fatigue test on fatigue testing machine. 12. To perform the spring test in tension and compression. 13. To study the Erichsen sheet metal testing machine & perform the Erichsen sheet metal test. 14. To perform the NDT tests: ultrasonic and dye-penetration tests

YEAR/SEMESTER: 2ND YEAR/IV SEMESTER 14B11HS411 FINANCIAL MANAGEMENT

Introduction, Scope and Objectives, Basic Financial Concept, Time value of money, Capital budgeting techniques, Cash flows, Long term sources of finances. Concept and measurement of cost of capital, Leverages, EBIT-EPS analysis, Working capital management- Inventory Management, Financial Statement analysis. 14B11ME411 MANUFACTURING TECHNOLOGY II

Introduction to Manufacturing and Machining, Importance of manufacturing, Classification of Metal Removal Processes, Needs of machining, limitations of Machining. Mechanics of Machining (Metal Cutting), Mechanism of chip formation, Orthogonal and oblique cutting, Machining forces and Merchant’s Circle Diagram (MCD), Analytical determination of cutting forces, Cutting temperature –

causes, effects, and assessment, Control of cutting temperature and cutting fluid application. Concept of Machinability and its Improvement, Failure of cutting tools, flank wear and crater wear, Tool life, concept of chatter, Cutting Tool Materials of common use , Advanced Cutting Tool Materials, Economics of metal machining. Basic working principle, Kinematic diagram of centre lathe, classification of lathe, specifications of lathe, various operations performed on lathe, Geometry of single point cutting tools, specification of single point cutting tool, tool signature, calculation of machining time. Basic working principle, Classification of milling machines, classification of milling cutters, Geometry of milling cutter, types of milling operations, holding of tool and work, indexing, calculation of machining time Classification of drilling machines and drills, kinematics diagram, Geometry of a drill bit, various operations, calculation of machining time, Basic principle, Classification of boring machines, Boring operations classification of shaping machines, kinematics diagram, Shaper mechanism, operations Principles, Types of broaches, Systems and Applications, Methods of mounting of jobs and cutting tools in machine tools, Purposes of jigs and fixtures and their Design principles, Jigs and Fixtures for Machine shops, Die casting, methods of forming gears, generating process, Gear shaping, gear shaving, gear grinding and gear testing. 14B11ME412 KINEMATICS OF MACHINES

Introduction to mechanism and machine, Link, Kinematic diagram, Kinematic Pairs, Chains, Grashof’s Criterion, Inversions, Euler’s theorem, Constrained motion, Degrees of freedom, Equivalent linkages, Kinematic synthesis of mechanisms, transmission of force and torque in mechanisms, Mechanisms with lower pairs, Universal Coupling, Indexing mechanism, Steering gear mechanism, Engine indicators, Kinematics of spatial chains, Robot kinematics. Displacement analysis, Relative velocity, Velocity image, Instantaneous centre, Aronhold-Kennedy’s theorem, Velocity and acceleration polygon, Coriolis component of acceleration, Klien’s construction, Hartmann construction, Euler-Savary equation, Bobilier construction, Kinematic synthesis for function and path generation. Friction axis and circle, Classification of lubrication, Theories of friction, Pivot and collar bearings, Clutches, Brakes and effect of breaking, Dynamometers and their applications.Terminologies and classification of gears, Gearing action, Law of gearing, Tooth profile generation, Involute action of spur gear, Interference and undercutting, Velocity ratio and efficiency of Helical and Worm gears. Different types of gear trains, Torque calculation, and Gear train with bevel gear. Terminologies, Classification of cams and followers, Follower movement, Synthesis of cam profile, Undercutting, Effect of offset motion, Pressure angle, Cams with specified contours, Dynamic analysis of rigid and elastic cams, Follower response and command, Jump, Surge, Design considerations.

14B11ME413 FLUID MECHANICS

Pressure, Density, Specific weight, Viscosity, Dynamic and kinematic viscosity, Newton's law of viscosity and its applications, Fluid statics, Pressure variation with depth, Pressure measurement, pressure on immersed surfaces, Center pressure, Buoyancy, Floatation, Stability of floating bodies. Types of flows, Rate and continuity equation, Rotation, Vorticity and circulation, Free and forced

vortex flow, Fluid Dynamics, Impulse momentum equation and its application, Bernoulli's equation, Dimensional analysis. Critical Reynold's number, Velocity distribution in pipes, Friction factor, Moody's chart, Pipe networking, Laminar flow through pipe, Hagen-Poiseulli's equation, Turbulent flow through pipe, Hydraulic gradient line and total energy line, Minor head losses in pipes, Pipe networking transmission of power through pipe..Development of boundary layer over flat plate and pipe, Boundary layer thickness-displacements energy and momentum thickness, Integral equation. Introduction, Impulse – momentum principle, Jet impingement on the various shaped plates, Force exerted by a Jet on a hinged plate, Jet impingement upon a moving flat plate, Impulse Turbines, Francis Turbines, Propeller and Kaplan turbines: construction, operation and design, Performance Characteristics. Centrifugal pumps, Classification, Velocity vector diagrams and work done, Reciprocating pumps, Construction and operational details, Work and power input, Effect of acceleration and friction on indicator diagram, Characteristic curves, Introduction to screw, gear, vane and radial piston pumps

14B11ME414 OPERATION RESEARCH

INTRODUCTION – Definition– Characteristics and Phases – Types of models – Operation Research models – applications. ALLOCATION : Linear Programming Problem Formulation – Graphical solution – Simplex method Artificial variables techniques -Two–phase method, Big-M method – Duality Principle. TRANSPORTATION PROBLEM – Formulation – Optimal solution, unbalanced transportation problem – Degeneracy. Assignment problem – Formulation – Optimal solution - Variants of Assignment Problem. SEQUENCING – Introduction – Flow –Shop sequencing – n jobs through two machines – n jobs through three machines – Job shop sequencing – two jobs through ‘m’ machines. THEORY OF GAMES: Introduction – Minimax (maximin) – Criterion and optimal strategy – Solution of games with saddle points – Rectangular games without saddle points – 2 X 2 games – dominance principle – m X 2 & 2 X n games -graphical method. AITING LINES: Introduction – Single Channel – Poisson arrivals – exponential service times – with infinite population and finite population models– Multichannel – Poisson arrivals – exponential service times with infinite population single channel Poisson arrivals. DYNAMIC PROGRAMMING: Introduction – Bellman’s Principle of optimality – Applications of dynamic programming- capital budgeting problem – shortest path problem – linear programming problem. SIMULATION: Introduction, Design of simulation, Models & experiments, Monte Carlo methods- its applications in industries, Problems. MARKOV ANALYSIS: First order Markov processes and their analysis

14B17ME471 MANUFACTURING TECHNOLOGY II LAB

LIST OF EXPERIMENTS

1. To study about the nomenclature of single point cutting tool and differentiate between cutting, parting, and facing tools.

2. Practice of thread cutting on Lathe machine.

3. To make a job on Lathe machine by performing different operations such as groove cutting, turning, and threading on a single workpiece.

4. To determine the machining time and prepare the process sheet for making a job on Lathe machine. 5. To measure the cutting forces using dial gauge during turning operation. 6. To make a job on milling machine by performing different operations such as face milling and slot

cutting, on a single workpiece. 7. To study the various methods of gear cutting and practice for making gears on milling machine. 8. To study the various type of Jigs and Fixtures. 9. To study the quick return mechanism and prepare the process sheet for making a job on

Shaper/Slotter. 10. To practice for making a job on Planar. 11. To study the nomenclature of drill and perform drilling operation on Drilling machine. 12. To make a job by drilling, boring, and reamming and make the process sheet for same. 13. To study about grinding wheels and perform the grinding operations on Grinding machine. 14. To compute the material removal rate in various machining (Turning, Milling, Drilling) and

grinding operations. 15. Alignment tests of Machine Tools.

14B17ME472 KINAMATICS OF MACHINES LAB

LIST OF EXPRIMENTS: 1. To study various types kinematics pairs and constrained motions. 2. To study mechanism and various inversions of quadratic cycle chain. 3. To study mechanism and various inversions of single slider crank chain. 4. To study mechanism and various inversions of double slider crank chain. 5. To study pantograph. 6. To study exact straight line motion mechanisms. 7. To study approximate straight line motion mechanisms. 8. To study Corioli’s component of acceleration of a slider crank mechanism. 9. To study various types of cam and follower arrangements. 10. To study the behavior of follower for different cam angle rotation and the effect of follower

weight and spring compression on bounce. 11. To study different type of clutches. 12. To study different types of brakes. 13. To study different types of dynamometers. 14. To study various type of gears, gears trains and differential. 15. To study internal type epicyclic gear train.

14B17ME473 FLUID MECHANICS LAB

LIST OF EXPERIMENTS 1. To determine the coefficient of impact for vanes.

2. To determine coefficient of discharge of an orificemeter. 3. To determine the coefficient of discharge of Notch ( V and Rectangular types ). 4. To determine the friction factor for the pipes. 5. To determine the coefficient of discharge of venturimeter. 6. To determine the coefficient of discharge, contraction & velocity of an orifice. 7. To verify the Bernoullis Theorem. 8. To find critical Reynolds number for a pipe flow. 9. To determine the meta-centric height of a floating body. 10. To determine the minor losses due to sudden enlargement, sudden contraction and bends. 11. To show the velocity and pressure variation with radius in a forced vertex flow. 12. Study positive displacement pumps 13. Study of hydryulic equipments viz. hydraulic ram, screw pump etc. 14. Draw the characteristic curves for pelton wheel. 15. Draw the characteristic curves for Francis turbine

14B17ME474 MACHINE DRAWING LAB

LIST OF EXERCISES: 1. Introduction, IS Code of Practice for General Engineering Drawings; Lines, scales, sectioning

and dimensioning; 2. Limits, fits and tolerances (dimensional and geometrical tolerances), 3. Drawing of machine elements in orthographic projection. 4. Screw threads – definitions, forms and conventional representation. 5. Drawing of screwed (or threaded) fasteners. 6. Methods of preventing rotation of a bolt while screwing a nut on or off it; Set screws, free-hand

sketching of some threaded fasteners and simple machine components 7. Drawing of assembly of Nut and Bolts. 8. Drawing of locking arrangements for nuts. 9. Drawing of different types of keys. 10. Drawing of the assembly of cotter and knuckle joint. 11. Drawing of rigid coupling. 12. Drawing of flexible coupling. 13. Drawing of riveted joints. 14. Drawing of engine sub-assemblies. 15. Drawing of complete assembly of the stuffing box

YEAR/SEMESTER: 3RD YEAR/V SEMESTER 14B11HS541 SOCIAL & LEGAL ISSUES

Contract Act, Consumer Laws, Laws of Patent, Company Act, Business ethics and values, Codes of Ethics & Professional Conduct, The place of code of ethics for an Engineer, Ethics in Bio-Tech, Environmental Ethics, Role of Board of Directors, The role of Top Management, Executive Compensation, Legal provisions and SEBI code, Governance mechanism and ethical behaviour, Corporate governance in India, Impact of internet on corporate governance. Intellectual Property Issues (What is Intellectual Property, Copyright law, Software Copyright), Copyright in Cyberspace, Offensive Speech in Cyberspace , pornography, censorship, Bomb-making Information Harassing Speech Online), Liability of service providers. Computer Crimes(Fraud and Embezzlement, Sabotage & Information theft, Intruders, Hacking & Cracking), Computer Crime Laws, Digital Forgery, Cyber Terrorism, Wiretapping, IT Act 2000, ICE Bill.

14B14HS542 HUMAN PSYCHOLOGY Understanding human experience and behavior: Definition, schools, methods, branches and application of psychology for engineers. Measuring human abilities: Intelligence, Personnel testing; the individual working life. Personality - definition, approaches and theories, Psychological problems of everyday life. Stress and coping; Psychological disorders, human error & Reliability, Work and mental health. Human learning Theories, conflict resolutions, Leadership and management.

14B14HS543 PROFESSIONAL ETHICS

Introduction, The nature and characteristics of professions, Obligations and professional services, Obligation to clients, professions and third parties. The foundations and norms of professional ethics. The need for separate code of conduct for professionals. The relation between professional and general ethics. Moral conflict and the issue of autonomy of professional ethics. Certain specific issues pertaining to medical ethics, legal ethics, computer ethics and business ethics. Teaching from scriptures and tradition (Geeta, Ramayana, Mahabharata, Upanishads, Vedas, Bible and Quran). Ethical Issues in Capitalism and market systems, Ethics and social responsibility, Ethics and marketing, Ethics in finance, Ethics and human resource, Ethics and Information Technology, Intellectual property rights like designs, patents, trade marks, copy rights.

14B14HS544 MACRO ECONOMICS

Meaning and Importance of Macro Economics. Concepts of Income, Output and employment – Gross Domestic Product (GDP), GNP,GNI and NNP – methods of measurement of GDP and limitations; monetary policy an fiscal policy, Balance of Payments : Current and Capital Accounts. Disequilibrium in balance of payments and its consequences. Balance of payments, adjustment policies in fixed and flexible exchange rate. Theories of Consumption spending: Absolute, Relative, Permanent Income and Lifecycle hypotheses. Consumption under uncertainty, Price Level at the macro level – WPI and CPI. Theories of Investment

spending: Keynesian, Accelerator and Neo-classical, Determination of Money Supply: Functions and Post-war controversy on definition of Money. Theories of Demand for Money: Quantity Theory and Keynes approach. Baumol and Tobin Contributions and Friedman’s restatement of quantity theory. IS and LM curves: Derivation, their shifts and rotations. Simultaneous equilibrium of product market and money market.

14B11ME511 DYNAMICS AND VIBRATIONS OF MACHINERY

Force analysis of mechanisms and parts of an engine, Dynamically equivalent systems, D'Alembert's principle, Dynamics of reciprocating engines, Turning-moment diagrams, Fluctuations of energy and speed, Fly wheels. GOVERNORS: Types of governors, Characteristics of centrifugal governors, Inertia governors, Sensitiveness, Hunting, Controlling force, Stability, Governor effect and power, Effect of friction on the quality of governor. BALANCING: Balancing of rotating and reciprocating masses, Tractive force, Hammer blow, Balancing of engines and rotors, Balancing machines. Gyroscopes, Gyroscopic forces and couples, Gyroscopic stabilization, Gyroscopic effects on naval ships,Steering, pitching and rolling, Ship stabilization, Stability of four wheel and two wheel vehicles moving on curved paths, Gyroscopic effects on an aeroplane. General terms and classification of vibrations, Harmonic motion, Periodic functions, Harmonic analysis, Equation of motion, Free and forced vibration, Damping, Resonance, Energy method, Rayleigh’s method, Unbalance, whirling speed of shaft, Transient vibration. VIBRATION OF MULTI DEGREE OF FREEDOM: Systems with two degree of freedom, Principle modes of vibration, Dynamic and centrifugal pendulum vibration absorbers, Viscous and Coulomb dampers, Hand damped free vibration, Principal modes steady state undamped force vibration, Damped vibration, Damped free vibration, Influence coefficient and matrix methods, Torsional vibrations, Multifilar systems, Torsionally equivalent system, Multimass torsional systems, Dunkerlay’s methods, Holzers method, Model analysis. 14B11ME512 INTERNAL COMBUSTION ENGINES S.I. and C.I. engines of two and four stroke cycles, , Scavenging, Introduction to ideal cycles: carnot cycle, otto cycle, diesel cycle, brayton cycle: applications of gas turbines, real cycle analysis of SI and CI engines, Determination of engine dimensions, speed, fuel consumption, output, mean effective pressure, efficiency, Factors effecting volumetric efficiency, Valve timing diagram ,Heat balance, Performance characteristics of SI and CI engines, Cylinder arrangement, Firing order, Power balance for multi-cylinder engines. ENGINE TESTING AND PERFORMANCE: Performance parameters: BHP, IHP, Mechanical-efficiency, Brake mean effective pressure and indicative mean effective pressure, Torque, Volumetric efficiency, Specific fuel consumption (BSFC, ISFC), Thermal efficiency; Heat balance, Basic engine measurements, Fuel and air consumption, Brake power, Indicated power and friction power, Heat lost to coolant and exhaust gases, Performance curves. VARIOUS TYPES OF FUELS AND BASIC MECHANISM OF CARBURETION AND INJECTION: Fuels for SI and CI engine, Important qualities of SI and CI engine fuels, Rating of SI engine and CI

engine fuels, Gaseous fuels, LPG, CNG and other alternative fuels, Carburetion, Mixture requirements, Theory of carburetor, MPFI, Fuel injection in CI engines, Requirements, Fuel pumps, Fuel injectors, Injection timings. COMBUSTION IN S.I. & C.I. ENGINES: Flame development and propagation, Ignition lag, Effect of air density, Temperature, Engine speed, Turbulence and ignition timings, Physical and chemical aspects of detonation, Effect of engine and fuel variables on knocking tendency, Knock rating of volatile fuels, Octane number, H.U.C.R., Action of dopes. Pre-ignition, Its causes and remedy, Abnormal combustion, Theory, effect and control of detonation, Super-charging and turbo-charging of engines. LUBRICATION & COOLING SYSTEMS: Functions of a lubricating system, Types of lubrication system, Mist, Wet sump and dry sump systems, Properties of lubricating oil, Classification of lubricating oil, SAE rating of lubricants, Engine performance and lubrication, Necessity of engine, Cooling, disadvantages of overcooling, Cooling systems, Air-cooling, Water cooling, Radiators. 14B11ME513 HEAT AND MASS TRANSFER definition of heat transfer, reversible and irreversible processes, modes of heat flow, combined heat transfer system and law of energy conservation, steady state heat conduction through a plane wall, cylinder and sphere, conduction with heat generation. extended surfaces: extended surfaces, fin effectiveness, 2-d heat conduction, transient heat conduction. convection: forced convection-thermal and hydro-dynamic boundary layers, equation of continuity, momentum and energy equations, empirical relations for free convection from vertical and horizontal planes & cylinders. thermal radiation : the stephen-boltzmann law, the black body radiation, shape factors and their relationships. heat exchange between non black bodies, electrical network for radiative exchange in an enclosure of two or three gray bodies, radiation shields. Heat exchangers: classification, performance variables, analysis of a parallel/counter flow heat exchanger, heat transfer with change of phase. mass transfer: fick’s law, equimolal diffusion, diffusion coefficient, analogy with heat transfer, diffusion of vapour in a stationary medium.

14B11ME514 DESIGN OF MACHINE ELEMENTS

Design against static load: modes of failure, theories of failure, graphical representation and comparison, introduction to fracture mechanics, stress concentration factor. design against fluctuating load: different types of fluctuating stresses, s-n curve, notch sensitivity, fatigue strength considering stress concentration factor, surface factor, size factor, reliability factor etc., fatigue design for finite and infinite life against combined variable stresses using goodman and soderberg’s criterion, fatigue design using miner’s equation. design for manufacturing (dfm), role of processing in design. material selection: material and manufacturing in design, material selection. belt, rope and chain drives: design of belt drives: flat and v-belt drives, geometrical factors, mechanics of belt drives, condition for transmission of maximum power, selection of flat and v-belts, design of rope drives, design of chain drives with sprockets. shafts, keys and couplings: design of shaft under bending, twisting and axial loading, shock factors, rigidity considerations, design of shaft under fluctuating loads, critical speed of shafts, keys, couplings welded joints: basics of design of welded joints , springs: types of

springs, design of helical springs against tension, compression and fluctuating loads and their uses, design of leaf springs, surging phenomenon in springs, design problems. bearings: selection of ball and roller bearing based on static and dynamic load carrying capacity using load-life relationship, selection of bearings from manufacturer’s catalogue. types of lubrication, lubricants and their properties, selection of suitable lubricants, design of journal bearings using raimondi and boyd’s charts, design problem.

14B11ME571 DYNAMICS & VIBRATIONS OF MACHINERY LAB

LIST OF EXPRIMENT: 1. To study the effect of varying the mass on central sleeve for Watt, Porter, and Proell governors

and to prepare performance characteristic curves. 2. To study the effect of varying initial spring compassion for Hartnell governor and to prepare

performance characteristic curves. 3. To study the static and dynamic balancing system. 4. To study the gyroscopic effect of a rotating disc. 5. To verify the relation of a simple pendulum. 6. To determine the radius of gyration of a compound pendulum and verify the relation. 7. To determine the radius of gyration of a given bar by using Bi –Filar suspension. 8. To study the torsional vibrations of a single rotor system. 9. To Study the free vibration of two rotor system and to determine the natural frequency of

vibration theoretically and experimentally. 10. To study the damped torsional oscillation and to find the damping coefficient. 11. To verify the Dunkerly’s rules. 12. To study the longitudinal vibration of helical spring and to determine the frequency and time

period of oscillation theoretically and actually by experiment. 13. To study the undamped free vibration of equivalent spring mass system. 14. To study the forced damped free vibration of equivalent spring mass system. 15. To study the forced vibration of the beam for different damping. 16. To study the effect of whiling of shaft in given different cases.

14B17ME572 INTERNAL COMBUSTION ENGINES LAB LIST OF EXPERIMENTS

1. To study the constructional details & working principles of two-stroke/ four stroke petrol engine.

2. To study the constructional detail & working of two-stroke/ four stroke diesel engine. 3. Analysis of exhaust gases from single cylinder/multi cylinder diesel/petrol engine by

Orsat Apparatus. 4. To prepare heat balance sheet on multi-cylinder diesel engine/petrol engine.

5. To find the indicated horse power (IHP) on multi-cylinder petrol engine/diesel engine by Morse Test.

6. To prepare variable speed performance test of a multi-cylinder/single cylinder petrol engine/diesel engine and prepare the curves (i) bhp, ihp,fhp, vs speed ( ii) volumetric efficiency & indicated specific fuel consumption vs speed.

7. To find fhp of a multi-cylinder diesel engine/petrol engine by Willian’s line method & by motoring method.

8. To perform constant speed performance test on a single cylinder/multi-cylinder diesel engine & draw curves of (i) bhp vs fuel rate, air rate and A/F and (ii) bhp vs mep, mech efficiency &sfc.

9. To measure CO & Hydrocarbons in the exhaust of 2- stroke / 4-stroke petrol engine. 10. To find intensity of smoke from a single cylinder / multi-cylinder diesel engine. 11. To draw the scavenging characteristic curves of single cylinder petrol engine. 12. To study the effects of secondary air flow on bhp, sfc, Mech. Efficiency & emission of a

two-stroke petrol engine. 14B17ME573 HEAT AND MASS TRANSFER LAB LIST OF EXPERIMENTS 1. To determine the thermal conductivity of a metallic rod. 2. To determine the thermal conductivity of an insulating power. 3. To determine the thermal conductivity of a solid by the guarded hot plate method. 4. To find the effectiveness of a pin fin in a rectangular duct natural convective condition and plot

temperature distribution along its length. 5. To find the effectiveness of a pin fin in a rectangular duct under forced convective and plot

temperature distribution along its length. 6. To determine the surface heat transfer coefficient for a heated vertical tube under natural

convection and plot the variation of local heat transfer coefficient along the length of the tube. Also compare the results with those of the correlation.

7. To determine average heat transfer coefficient for a externally heated horizontal pipe under forced convection & plot Reynolds and Nusselt numbers along the length of pipe. Also compare the results with those of the correlations.

8. To measure the emmisivity of the gray body (plate) at different temperature and plot the variation of emmisivity with surface temperature.

9. To find overall heat transfer coefficient and effectiveness of a heat exchange under parallel and counter flow conditions. Also plot the temperature distribution in both the cases along the length of heat of heat exchanger.

10. To verify the Stefen-Boltzmann constant for thermal radiation.

11. To demonstrate the super thermal conducting heat pipe and compare its working with that of the best conductor i.e. copper pipe. Also plot temperature variation along the length with time or three pipes.

12. To study the two phases heat transfer unit. 13. To determine the water side overall heat transfer coefficient on a cross-flow heat exchanger. 14. Design of Heat exchanger using CAD and verification using thermal analysis package 14B17ME574 DESIGN OF MACHINE ELEMENTS LAB LIST OF EXPERIMENTS 1. To make a complete design of V-belt. 2. To make a complete design of chain drive. 3. To make a complete design of a shaft. 4. To make a complete design of a key. 5. To make a complete design of a coupling. 6. To make a complete design of butt joint. 7. To make a complete design of lap joint. 8. To make a complete design of a helical spring. 9. To make a complete design of leaf spring. 10. To make complete design of bearings. 11. To make a complete design of a journal bearing. 12. To make a complete design of connecting rod. 13. To make a complete design of Piston 14B14ME541 UNCONVENTIONAL ENERGY SOURCES

INTRODUCTION: The energy crisis – causes and options, Renewable and Non-renewable forms of energy and their characteristics, Availability of renewable energy and Land area requirements. SOLAR ENERGY: Solar radiations, Solar thermal power and it's conversion, Solar collectors, Flat plat, Concentric collectors, Cylindrical collectors, Thermal analysis of solar collectors. Solar energy storage, Different systems, Solar pond. Applications, Water heating, Space heating & cooling, Solar distillation, Solar pumping, Solar cooking, Greenhouses, Solar power plants. BIOGAS: Photosynthesis, Bio gas production, Aerobic and anaerobic bio-conversion process, Raw materials, Properties of bio gas, Transportation of bio gas, Bio gas plant technology & status, Community biogas plants, Problems involved in bio gas production, Bio gas applications, Biomass conversion techniques, Energy plantation, Fuel properties. WIND ENERGY: Properties of wind, Availability of wind energy in India, Wind Velocity, Wind machine fundamentals, Types of wind machines and their characteristics, Horizontal and Vertical axis wind mills, Elementary design principles, Coefficient of performance of a wind mill rotor, Aerodynamic considerations in wind mill design, Selection of a wind mill, Economic issues, Recent development. ELECTROCHEMICAL EFFECTS AND FUEL CELLS: Revisable cells, Ideal fuel cells, Other types of fuel cells, Efficiency of cells, Thermions systems. TIDAL POWER:

Tides and waves as sources of energy, Fundamentals of tidal power, Use of tidal energy, Limitations of tidal energy conversion systems. HYDROGEN ENERGY: Properties of hydrogen in respect of it's use as source of renewable energy, Sources of hydrogen, Production of hydrogen, Storage and transportation, Problems with hydrogen as fuel. THERMOELECTRIC SYSTEMS: Kelvin relations, Power generation, Properties of thermoelectric materials, Fusion, Plasma generators. GEOTHERMAL ENERGY: Hot springs, Steam ejection, Principal of working, Types of geothermal station with schematic representation, Site selection for geothermal power plants. Advanced concepts, Problems associated with geothermal conversion. OCEAN ENERGY: Principal of ocean thermal energy conversion, Power plants based on ocean energy, Problems associated with ocean thermal energy conversion systems. 14B14ME542 NONDESTRUCTIVE METHODS OF INSPECTION

INTRODUCTION OF NDT: History and background – Classifications- advantages and disadvantages- applications, Strain gauges- working principle-classifications-applications Motion measurement-accelerometer. PHOTOELASTICITY FOR STRESS ANALYSIS OF 2-D SYSTEMS: Working principle-Stress-Optic law; Moiré fringes-methodology-classification-applications; Holography-mathematical modeling techniques-applications, Interferometry-Michelson interferometer-applications. Modern NDT techniques of flaw detection, Visual inspection and its importance in inspection, Infra-red imaging-methodology and applications, Detailed discussions about following techniques: Ultrasonic testing, Liquid penetrate testing, X-ray radiography, Magnetic particle testing, Current testing and Acoustic Emission Testing. Laboratory classes on NDT techniques. 14B14ME543 MECHATRONICS

MECHATRONICS AND ITS SCOPE: Sensors and transducers-Displacement, position & proximity, velocity, force, pressure and level. Signal conditioning amplification, Filtering & data acquisition. PNEUMATIC AND HYDRAULIC ACTUATION SYSTEMS: Directional control valves, Pressure control valves and cylinders, Process control valves, Mechanical actuation system - Kinematic chains, cams, gear trains. Ratchet & Pawl, Dampers, Bearings. Electrical actuation system. Mechanical switches - Solenoid operated solid state switches, DC, AC & stepper motors. Building blocks of mechanical spring, Mass and damper. Drives - Electrical Drives, Fluid systems, Hydraulic, Servo, Closed loop controllers. ELEMENTS OF MICROPROCESSORS & MICROCONTROLLERS: Programmable logic controllers (PLC) & Industrial Robot and its control, Automobile engine control, Electromechanical disc-control. VEHICLE SUSPENSION CONTROL. Micro mechanical systems. Computer Printer, VCR, Fax machine, NC machine.

YEAR/SEMESTER: 3RD YEAR/VI SEMESTER

14B14HS641 PROJECT MANAGEMENT

Project Management Basics, Role, attitude and skills of Project manager, Project Lifecycle, Project Environment, 7’S of Project Management., Project Model. Basics of Project Selection, Risk Management. Key Structure of project Organization, Project Planning, Project Budgeting and cost estimation. Project Scheduling (Importance, PERT/CPM, AOA and AON charts, Probablity analysis). Project Control, Project Termination. 14B14HS642 BUSINESS ENVIRONMENT

The concept of Business Environment, significance and nature. Environment Scanning: meaning, nature and scope, the process of environmental scanning, Interaction between internal and external environments, basic philosophies of Capitalism and Socialism with their variants. Concepts of Mixed Economy. Overview of Political, Socio-cultural, Legal, Technological and Global environment. An introduction to MRTP, FEMA, SEBI Act, Consumer Protection Act; The changing dimensions of these laws and their impact on business. Philosophy and strategy of planning in India; Industrial Policy in recent years; Policy with regard to small scale industries; the monetary policy and fiscal policy, Stock Exchange-BSE-NSE. Depository system in India (Options, Futures and Derivatives) RBI-Role and functions, banking structure reforms; Narasimha Committee Recommendations, Financial Sector reforms. E-Banking in India-objectives trends and practical uses-Recent technological developments in Indian Banking (ATM, Debit and Credit Cards, EMI, EFT) Consumerism, Social Responsibility of business enterprises, New Economic Policy, Globalization, EXIM policy, FDI policy, Multinational Corporation (MNCs) and Transnational Corporations (TNCs), Global Competitiveness.

14B1HS643 FUNDAMENTALS OF FINANCIAL MARKET

Financial institutions as firms & intermediaries, Financial markets, Lenders and borrowers, The financial system and the real economy, Deposit-taking institutions, Non-deposit-taking institutions, Interest rates. Money market purpose and structure, Money market segments, Money market participants, Money market instruments - Treasury bills and other government securities, Commercial papers, Certificates of deposit, Repurchase agreements, Money market interest rates and yields. Debt market instrument characteristics, Bond market: characteristics & yields, Bond valuation - Discounted models, Bond duration and risk, Bond analysis. Equity instruments - Common shares, Preferred shares, Private equity, Primary equity market, Secondary equity market structure, Equity market transactions, Equity market characteristics, Stock valuation, Processes of consolidation of stock exchanges. Hedging against risk, Description of derivatives markets, Forward and futures contracts: Principles, valuation, uses, Swaps, Options: definition, components, determinants, Option pricing models.

14B14HS644 MARKETING MANAGEMENT

Defining Marketing for the 21st Century, Developing Marketing Strategies and Plans. Gathering Information and Scanning the Environment, Conducting Marketing Research and Forecasting Demand. Creating Customer Value, Satisfaction, and Loyalty, Analyzing Consumer Markets, Analyzing Business Markets, Identifying Market Segments and Targets. Dealing with Competition, Creating

Brand Equity, Crafting the Brand Positioning. Setting Product Strategy, Designing and Managing Services, Developing Pricing Strategies and Programs.

14B11ME611 COMPUTER AIDED DESIGN

INTRODUCTION: Introduction to computer aided design, brief history, overview of computer graphics – representing pictures; displays, printers and plotters. TWO-DIMENSIONAL TRANSFOMATION: Introduction, representation of points, transformation and matrices, transformation of points, transformation of straight lines, rotation, reflection, scaling, combined transformations, solid body transformations, translations and homogeneous coordinates, rotation about an arbitrary point, reflection through an arbitrary line, projection, overall scaling, transformation conventions. THREE-DIMENSIONAL TRANSFOMATIONS: Introduction; scaling, shearing, rotation, reflection and translations; multiple transformations, rotation about axes, reflection through planes, affine and perspective geometry, orthographic projections, axonometric projections, oblique projections, perspective transformations. DESIGN OF CURVES: Introduction, wireframe models, wireframe entities and curve representation Plane curves: non-parametric and parametric curves, parametric representation of circle, ellipse, parabola and hyperbola; general conic equations. Space curves: representation of space curves, cubic splines, normalized cubic splines, Bezier curves, B-spline curves, End conditions of periodic B-spline curves, rational B-spline curves. DESIGN OF SURFACES: Introduction, surface models, surface entities and surface representation, surface of revolution, sweep surfaces, quadric surface, piecewise surface representation, mapping parametric surface, bilinear surface, ruled and developable surface, bilinear coons surface, coons bicubic surface, Bezier surface, B-spline surface, Gaussian curvature and surface fairness, Rational B-spline surface. Intersection between curves and surfaces. SOLID MODELING: Introduction, solid models, solid entities and solid representation, fundamentals of solid modeling – set theory, regularized set operations; set membership classification, half spaces, Boundary Representation (B-rep), Constructive Solid Geometry (CSG), other representations, mass property calculations. CAD/CAM DATA EXCHANGE FORMATS: ISO standard, STEP, DXF, IGES, STL and PDES formats – a brief introduction. 14B11ME612 REFRIGERATION AND AIR-CONDITIONING INTRODUCTION: Second law of thermodynamics, Refrigeration & air conditioning, Methods of refrigeration, Unit of refrigeration, Coefficient of performance (COP), Fundamentals of air-conditioning system, Refrigerants, Classification, Nomenclature, Desirable properties, Comparative study, Secondary refrigerants, Introduction to eco-friendly Refrigerants, Introduction to Cryogenics. AIR REFRIGERATION SYSTEMS: Carnot refrigeration cycle, Temperature, Limitations, Brayton refrigeration or the Bell Coleman air refrigeration cycle, Necessity of cooling the aero plane; Air craft refrigeration systems, Simple cooling and simple evaporative types, Boot strap and boot strap evaporative types, Regenerative type and reduced ambient type system, Comparison of different systems. Benque Helshe tube . VAPOUR COMPRESSION REFRIGERATION SYSTEM: Simple vapour compression (VC) refrigeration systems-Limitations of reversed carnot cycle with vapour as the

refrigerant, Analysis of VC cycle considering degrees of sub cooling and superheating, VC cycle on p-v, t-s and p-h diagrams, Effects of operating conditions on COP, Comparison of VC cycle with air refrigeration cycle, multi stage refrigeration systems., Multi evaporator and multi expansion valve systems. VAPOUR ABSORPTION SYSTEMS AND REFRIGERANTS: Theoretical and practical systems such as Electrolux and other systems (three fluid refrigeration system), Nomenclature & classification of refrigerants, Desirable properties, Common refrigeration, Comparative study, Leak detection methods, environment friendly refrigerants and refrigerant mixtures, Brine and its properties. PSYCHROMETRY: Calculation of psychrometric properties of air by table and charts, Sensible heating and cooling, Evaporative cooling, Cooling and dehumidification, Heating and humidification, Mixing of air stream, sensible heat factor. AIR CONDITIONING: Principle of air conditioning, Requirements of comfort air conditioning, Properties of moist Air-Gibbs, Dalton law, Specific humidity, Dew point temperature, Degree of saturation, Relative humidity, Enthalpy, Humid specific heat, Wet bulb temperature, Psychrometric chart, Psychrometry of air-conditioning processes, Air- Conditioning Load Calculations, Outside and inside design conditions, Sources of heating load, Sources of cooling load, Types of air conditioning systems.

14B11ME613 ADVANCED MANUFACTURING PROCESSES INTRODUCTION: Limitations of conventional manufacturing processes, Need and classification of unconventional or advanced manufacturing processes . UNCONVENTIONAL MACHINING PROCESSES: Process principle, Analysis and applications of Electric Discharge Machining, Laser Beam Machining, Electron Beam Machining, Ion Beam Machining, Plasma Beam Machining, Ultra-Sonic Machining, Abrasive Jet Machining, Water Jet Machining, Abrasive Water Jet Machining, Ice Jet Machining, Electrochemical Machining, Chemical Machining, Bio Chemical Machining. HYBRID MACHINING PROCESSES: Electrochemical Discharge Machining, Electro-Chemical Abrasive Grinding, Electro Discharge Abrasive Grinding. UNCONVENTIONAL FINISHING PROCESSES: Need, classification, process principle and applications of Abrasive Flow Finishing, Magnetic Abrasive Flow Finishing, Magnetic Abrasive Finishing, Magneto-Rheological Finishing. UNCONVENTIONAL WELDING PROCESSES: Laser beam welding, Electron beam welding, Ultra-sonic welding, Plasma arc welding, Explosive welding, under water welding, Micro welding processes. UNCONVENTIONAL FORMING PROCESSES: Explosive forming, Electro hydraulic forming, Electromagnetic forming, Laser bending, Powder rolling, Spray rolling, Hydro forming, Hydrostatic and Powder extrusion, Powder, Rotary and Isothermal forming. POWDER METALLURGY: Metal powder Production, Treatment, Compaction, Sintering, Hot consolidation, Secondary treatment and Quality control of the product 14B11ME614 COMPUTER AIDED MANUFACTURING Automation: Definition of Automation, Need for Automation, building block of automation technology, Types of automation systems, Automation strategies, levels of automation, types of control system, Advantages, Disadvantages and applications of Automation. NC, CNC and Adaptive control:

Introduction, history, components of NC machines, classification of NC machines, input media for NC machines, microprocessor based CNC systems, block diagram of a typical CNC system, features of CNC, advantages of CNC, direct numeric control (DNC) and its advantages, Adaptive control and its types. Part programming: Introduction, NC coordinate system, fixed and floating zero machines, NC motion control systems, part programming methods, Manual part programming for milling and lathe using G and M codes, various canned cycles, Computer aided part programming: Introduction to APT language, simple problems on APT programming. Group Technology: Introduction, part families, part classification and coding, production flow analysis, composite part concept, machine cell design, benefits of GT. FMS and CIM: Concept and definition of Flexible Manufacturing System (FMS), components of FMS, FMS workstations, Automated material handling and storage systems, Automated storage and retrieval system and Industrial robots, FMS layout and benefits, Introduction and concept of Computer Integrated manufacturing (CIM) through CIM wheel. 14B11ME615 MEASUREMENT AND CONTROL INSTRUMENTATION & THEIR REPRESENTATION: Introduction, Typical applications of instrument, Systems, Functional elements of a measurement system, Classification of instruments, Standards and calibration. STATIC AND DYNAMICS CHARECTERISTICS OF INSTRUMENTS: Accuracy, Precision, Resolution, Threshold, Sensitivity, Linearity, Hysteresis, Dead band, Backlash, Drift, Motion, Force and torque measurement, Pressure and flow measurement, Temperature measurement. METROLOGY: Accuracy and Precision, Limits, Fits and Tolerances, Interchangeability and selective assembly, Probability distribution (Normal distribution), Limit gauges and Tolerance sink, Verrnier caliper, Micrometer, Dial gauge, Surface Plate, Sine bar , angle blocks, Interferometers and Optical flat analysis, Comparators, Surface finish. INTRODUCTION TO CONTROL SYSTEMS: Types of control systems, Performance analysis representation of processes & control elements – Mathematical modeling, Block diagram representation, Signal flow graphs, Types of controllers. TRANSIENT AND STEADY STATE RESPONSE: Time domain representation, Laplace transform, Proportional – cum – derivative control, Proportional – cum – integral control, Error constant. 14B17ME671 COMPUTER AIDED DESIGN LABORATORY

LIST OF EXPERIMENTS: 1. Write a program for drawing a line and a circle. Run it in a computer. (May use AutoCAD and

AutoLISP). 2. Write a program for 2D transformations. 3. Write a program for 3D transformations. Announcement to take up a project 4. Design of planar and space curves 5. Generate surfaces. The projects should be started around this time and students should start

working on them. Labs 6-9. Solid modeling exercises in Pro/E Labs 10-12 complete the project

Labs 13-14 Project presentation

14B17ME672 REFRIGERATION AND AIR-CONDITIONING LAB LIST OF EXPERIMENTS

1. To study the vapour compression Refrigeration System and determine its C.O.P. and draw P-H and T-S diagrams.

2. To Study the Mechanical heat pump and find its C.O.P. 3. To study the Air and Water heat pump and find its C.O.P. 4. To study the cut- sectional models of Reciprocating and Rotary Refrigerant compressor. 5. To study the various controls used in Refrigerating & Air Conditioning systems. 6. To study the Ice- plant, its working cycle and determine its C.O.P and capacity. 7. To study the humidification, heating, cooling and dehumidification processes and plot them on

Psychrometric charts. 8. To determine the By-pass factor of Heating & Cooling coils and plot them on Psychrometric

charts on different inlet conditions. 9. To determine sensible heat factor of Air on re-circulated air-conditioning set up. 10. To study the chilling plant and its working cycle. 11. To study the cold storage. 12. To study the vortex tube. 13. To study the water cooling tower. 14. To study the gas charging unit.

14B17ME674 COMPUTER AIDED MANUFACTURING LAB LIST OF EXPERIMENTS

1. Study of operating procedure of CNC Trainer Lathe MCL 10 and Milling HEM 10. 2. Study of G Code (Geometric Code) and M Code (Miscellaneous Code). 3. Write a part program for Single Facing (G82) operation for the Lathe component. 4. Write a part program for Single Turning (G83) operation for the Lathe component. 5. Write a part program for Multiple Facing (G85) operation for the Lathe component. 6. Write a simple part program for Contouring (G01, G02, and G03) operation (Linear & Circular

Interpolation) for the Milling component. 7. Write a simple part program for Continuous Drilling canned cycle (G81) for the Milling

component. 8. Write a simple part program for Peck Drilling canned cycle (G83) for the Milling component. 9. Write a simple part program for Mirroring operation (M70, M71, M80, M81) for the Milling

component. 10. Write a part-program for drilling operation on a part using APT language. 11. Write a part-program for milling operation on a part using APT language.

12. Write a program for pick and place operation for 5-axis robot. 13. Demonstration of automatic measurement of various dimensions such as OD, ID, and thickness

of a part on CMM. 14. Demonstration and study of CIM system Off-line manual mode. 15. Demonstration and study of CIM system on-line automatic mode.

14B14ME641 POWER PLANT ENGINEERING

Energy resources and their availability, Types of power plants, Selection of the plants, Review of basic thermodynamic cycles used in power plants. HYDRO ELECTRIC & NUCLEAR POWER PLANTS: Rainfall and run-off measurements power plants design, Site selection, Comparison with other types of power plants, Principles of nuclear energy, Basic nuclear reactions, Nuclear reactors-PWR, BWR, CANDU, Sodium graphite. COMBINED CYCLES: Constant pressure gas turbine power plants, Arrangements of combined plants (steam & gas turbine power plants), Re-powering systems with gas production from coal, Using PFBC systems with organic fluids, Parameters affecting thermodynamic efficiency of combined cycles. POWER PLANT ECONOMICS: Load curve, Different terms and definitions, Cost of electrical energy, Tariffs methods of electrical energy, Performance & operating characteristics of power plants- incremental rate theory, Input-out put curves, Efficiency, Heat rate, Economic load sharing. STEAM TURBINES: Classification, Impulse Turbine- flow through blades, Velocity diagram, Power output and efficiency, Maximum blade efficiency of single stage impulse turbine, Blade friction, Compounding of impulse turbine, Reaction Turbine-flow through impulse reaction blades, Degree of reaction, Velocity diagram, Power output, Efficiency and blade height, Comparison of impulse and impulse reaction turbines, Losses in steam turbines, Stage efficiency, Overall efficiency and reheat factor, Governing of steam turbines. 14B14ME642 MAINTENANCE ENGINEERING

Fundamentals of Maintenance Engineering, Maintenance engineering its importance in material & energy conservation, Inventory control, Productivity, Safety, Pollution control, Safety Regulations, Pollution problems, Human reliability. MAINTENANCE MANAGEMENT: Types of maintenance strategies, Planned and unplanned maintenance, Breakdown, Preventive & Predictive maintenance their comparison, Computer aided maintenance, Maintenance scheduling, Spare part management, Inventory control. TRIBOLOGY IN MAINTENANCE: Friction wear and lubrication, Friction & wear mechanisms, Prevention of wear, Types of lubrication mechanisms, Lubrication processes. Lubricants types, General and special purpose, Additives, Testing of lubricants, Degradation of lubricants, Seal & packing. MACHINE HEALTH MONITORING: Condition based maintenance, Signature analysis, Oil analysis, Vibration, Noise and thermal signatures, On line & off line techniques, Instrumentation & equipment used in machine health monitoring. Instrumentation in maintenance, Signal processing, Data acquisition and analysis, Application of intelligent systems, Data base design. RELIABILITY, AVAILABILITY & MAINTAINABILITY (RAM) ANALYSIS: Introduction to RAM failure mechanism, Failure data analysis, Failure distribution, Reliability of repairable and non-repairable

systems, Improvement in reliability, Reliability testing, Reliability prediction, Utilization factor, System reliability by Monte Carlo Simulation Technique.

14B14ME643 LASER MATERIAL PROCESSING

Light and Laser – Historical background, Generation of laser beam, Classification, Characteristics and application of lasers. Lasers in engineering. LASER BEAM MACHINING: Laser processing of materials and process capabilities, Laser beam machining (LBM), Process principle, analysis and applications of laser Drilling, Cutting, Turning, and Milling processes, Laser Micromachining. LASER FORMING: Process principle, analysis and applications of Laser forming processes such as Bending and Deep drawing. LASER WELDING AND SURFACE TREATMENT: Process principle, analysis and applications of laser welding, cladding, surface alloying and heat treatment processes. LASER BASED RAPID PROTOTYPING: Process principle and analysis of laser based rapid prototyping such as stereolithography, Selective laser sintering, Laminated object manufacturing, and Laser direct casting. LASER ASSISTED MATERIAL PROCESSING: Laser assisted machining (LAM), Laser cleaning, and Laser hybrid machining processes, Latest developments in laser material processing.

YEAR/SEMESTER: 4TH YEAR/VII SEMESTER

14B14HS741 ENTREPRENEURIAL DEVELOPMENT

Concept of Entrepreneurship, Entrepreneurial Development Agencies, Business Planning, Entrepreneurial Development Programmes, Economic Development and Entrepreneurial growth, Importance of small scale industries. 14B14HS741 MANAGING AND MARKETING TECHNOLOGY

Understanding Marketing Management, Developing marketing strategies and capturing marketing insights, Strategic Planning and the marketing Process, Assessing opportunities in a dynamic marketing environment, The Marketing Environment, Managing and Marketing Information, Consumer and Business Buyer Behaviour, Developing marketing strategies and capturing marketing insights, Product and service strategy, Pricing products: Pricing considerations and strategies, Marketing Channels and Integrated-Marketing Communications, Managing marketing and growth.

14B14HS743 ENTREPRENEURSHIP AND SMALL BUSINESS

Entrepreneurship-Enterprise: Conceptual issues, Entrepreneurship vs. Management, Roles and functions of entrepreneur in relation to the enterprise and in relation to the economy. Entrepreneurship is an interactive process between the individual and the environment. The process of setting up a small business: Preliminary screening and aspects of the detailed study of the feasibility of the business idea

and financing/non-financing support agencies to familiarize themselves with the policies/programs and procedures and the available schemes. Management roles and functions in a small business. Designing and re-designing business process, location, layout, operations planning and control.. The pros and cons of alternative growth options: internal expansion, acquisitions and mergers, integration and diversification, Crisis in business growth. Brief introduction to Single-Entry system of record keeping. Sources of risk/venture capital, fixed capital, working capital and a basic awareness of financial services such as leasing and factoring. The contemporary perspectives on Infrastructure Development, Product and Procurement Reservation, Marketing Assistance, Subsidies and other Fiscal and Monetary Incentives. National state level and grass-root level financial and non-financial institutions in support of small business development. 14B14HS744 BRAND MANAGEMENT

Customer-Based Brand Equity, Brand Positioning. Choosing Brand Elements to Build Brand Equity, Designing Marketing Programs to Build Brand Equity, Integrating Marketing Communications to Build Brand Equity, Leveraging Secondary Brand Associations to Build Brand Equity. Developing a Brand Equity Measurement and Management System, Measuring Sources of Brand Equity: Capturing Customer Mindset, Measuring Outcomes of Brand Equity: Capturing Market Performance. Designing and Implementing Branding Strategies, Introducing and Naming New Products and Brand Extensions, Managing Brands over Time, Managing Brands over Geographic, Boundaries and Market Segments.

14B14HS745 HUMAN RESOURCE MANAGEMENT

Human Resource Management: Meaning, Nature and Scope, HRM functions and objectives, evolution of HRM environment. Human resource development in India: evolution and principles of HRD Vs personnel functions, Role of HR managers. Strategic Human Resource Management: Nature of strategies and strategic management, strategic management process. Environment scanning, strategy formulation, implementation and evaluation. Human Resource Planning: Definition, purposes, processes and limiting factors. Human resources information system (HRIS): HR Accounting and audit, Job analysis- job description, job specification. Training and Development: purpose, methods and issues of training and management development programmes. Performance Appraisal: definition, purpose of appraisal, procedures and techniques including 360 degree performance appraisal. Job evaluation and Compensation administration: nature and objectives of compensation, components of pay structure in India, Wage policy in India. Discipline and Grievance Procedures: definition, disciplinary procedure, grievance handling procedures. Industrial relations: nature, importance and approaches to industrial relations. 14B14HS746 TOTAL QUALITY MANAGEMENT

Basics of Total Quality, Total Quality Management, TQM -Thinkers and Thoughts, Quality Awards. Cost of Quality, Team work for Quality, Total Employee Involvement Customer Satisfaction. Quality Circles, Kaizen, Six Sigma, People CMM, Benchmarking. Control of Accuracy and Precision, Process Capability, Statistical Process Control, Quality Function Deployment, Quality Management Systems,

Design of Experiments (Taguchi Technique), FMEA, Total Productivity Maintenance. ISO: 9000 series, ISO: 14000 series. 14B19ME791 PROJECT PART-I

Title of the Project- This should be carefully decided by the student after discussing with the project supervisor or the guide. Explain the relevance and importance of the project, Write a brief (1 or 2 pages) introduction of the project explaining its relevance and importance. Requirements - Based on academic needs, the current technological pursuits and finding or knowing what the customers/markets need or require. Write in steps the project requirements. Feasibility Study- The general requirements were listed in section-3 and therefore the feasibility study may start. The feasibility study of project must be completed within 4 weeks. Scope/Objectives: By doing the project feasibility, the uncertainties and ambiguities are reduced. The team is now definite about Resources, Confidence, Viability, Reliability, Inadequacy and many such factors. Requirement Analysis: Now one by one these requirements are to be analyzed and so as to generate general design inputs. Activity Time Schedule: Draw a suitable representation that indicates the proposed manner of execution of the project - starting from the start to the completion date. Detail Design - start of system and Subsystem level design, Design from the conceptual level block schematic, a detail architectural layout, indicate every subsystem and within them identify every small entity.

14B11ME711 ADDITIVE MANUFACTURING

Overview of additive manufacturing (am) process, process chain of additive manufacturing, data exchange formats: data formats for am and associated details, data conversion for am and associated difficulties, data validity checks for am, data repair procedures for am, slicing algorithms and related details, direct slicing, standard data formats for translation, relevant am file formats, step data format and its details. classification of am processes: liquid based, solid based, and powder based am processes; fused deposition modeling of polymers, ceramics and metals, laminated object manufacturing, shape deposition manufacturing, stereo lithography and other liquid based systems, laser sintering based technologies and their related details, 3d printing, direct metal deposition, laser and electron beam melting based technologies applications of am: applications of am in different industries. rapid tooling: direct and indirect tooling processes. rapid manufacturing: different applications of am for directly making end-use parts; medical rp – dental, hearing aid, medical devices, bone-transplant, surgical planning and tissue engineering; mass customization – production of customized products in mass scale. introduction to reverse engineering: definition of reverse engineering (re), need for re, three phases in the generic re process – scanning (contact and non-contact scanners), point processing and geometric modeling. 14B17ME771 ADDITIVE MANUFACTURING LAB LIST OF LAB WORKS: Labs 1-2 Preprocessing for the 3D Printer from Z Corp., ZPrinter 450: CAD file preparation,

exporting in STL, PLY or VRML file format, familiarity with the software packages

ZPrint and ZEdit Pro and adding operating parameters using these software. Announcement to take up a project.

Lab 3 Part fabrication in ZPrinter 450 and post processing. The projects should be started around this time and students should start working on them.

Labs 4-7 Preprocessing for the plastic laser sintering machine from EOS GmbH, EOSINT P395: CAD file preparation, exporting in STL or another suitable AM file format, STL file repair using Magics RP software, operating parameters addition in RP Tools software.

Lab 8 Part fabrication in EOSINT P395 machine: familiarity with PSW software, machine preparation and operation.

Lab 9 Post processing after part building in EOSINT P395. Labs 10-12 Complete the project Labs 13-14 Project presentation. 14M14ME741 ENERGY CONVERSION AND AUDIT

Role of energy in industrial activity, conventional and non conventional energy sources, energy demand and availability, energy audit, energy conservation techniques in domestic, transport and in industrial sector, energy conservation in production of heat and in power generation. energy conservation in use of heat: economical design of furnace, water treatment, drying conditioning and industrial space heating, boiler accessories etc., heat recovery in waste heat boilers, co-generation selection of cycles: combined cycle, power generation for better energy efficiency management, different systems for combined cycle power generation, energy conservation for better management techniques. new and renewable energy technologies: clean coal technologies – coal beneficiation, supercritical cycles, integrated gasification combined cycles (igcc), and fluidized bed combustion, electro gas dynamic, thermonic, thermoelectric generators, fuel cells, hydrogen economy, renewable energy sources, solar, wind, hydro, biomass, tidal, geothermal, animal and human energy. energy audit: introduction, types of audit, field audit, billing audit, micro audit, energy accounting & analysis, survey instrumentation, energy economic decision making, the heating, ventilation and air conditioning audit, energy efficiency in unit operation, demand side management, energy economics, energy related standards & norms, energy intensive industries, the utility energy audit, maintenance and energy audits, self-evaluation checklists, case studies & success stories.

14B14ME742 ADVANCED MECHANICS OF SOLIDS

Analysis of stress and strain: analysis of stress, analysis of strain, compatibility conditions, generalized hooke’s law, stress-strain relations, theories of failure, factors of safety in design, ideally plastic in solids, yield surfaces of tresca and non mices.prandtal renss and saint venant non mises equations. deflection of beams: bending of a plate, bending of a uniformly loaded rectangular plate, deflection of a long rectangular plate with initial curvature, bending of a circular plate with various loading conditions, energy methods in first and second theorems of castigliano, maxwell mohr integrals asymmetric bending of beams, shear centre, bending of curved beams and thick curved bar shear center. torsion:

torsion of circular and non circular bars, torsion of rolled section bars, membrane analogy, torsion of thin walled tubes, torsion of rolled section bars, torsion of thin walled multiple – closed section, centre of twist and flexural centre. pressure vessels: thick walled cylinder subject to internal and external pressure, stresses in composite tubes, stress in rotating disks, shafts and cylinders, thermal stresses in thin circular disc, long circular cylinder, sphere and straight and curved beams. column and struts: elastic stability, beam-columns with concentrated load, Several concentrated load and end coupled, Buckling problem as eigen value problem, Orthogonility relations, Energy methods for buckling problems.

14B14ME743 METROLOGY

Introduction: Definition and requirement of Metrology, Basic principles: Trigonometry; Mechanics: moment of inertia, modulus of elasticity, deflection of beams; Optics: reflection, refraction, interference; Heat and Temperature. Standards: Line standards: imperial yard, standard meter, intercomparisons, standard scale. End standards: end bars, slip gauges, Interferometery and Wavelength standards. Standardizations: Limits and Fits, Limits and Tolerances, Fits and Allowances, Systems of Limits and Fits. Limit Gauges: Definition, Classification of Limit Gauges, Workshop and Inspection Gauges, Design and Manufacture of gauges. Accuracy and Precision, Interchangeability and selective assembly, readability, repeatability. Optical Projectors and Microscopes: types, components and their uses. Linear Measurements: Vernier caliper, Height gauges, use of slip gauges and surface plate, Comparators: Definition, Types of comparators, Mechanical comparators: Dial gauge indicator, Sigma comparator, Optical, pneumatic comparator. Angular Measurements: Protectors, Sin bars, angle gauges. Straightness, flatness, squareness, surface roughness, screw thread measurement, gear pitch measurement. Advances in Metrology: Precision instruments based on laser-principles- laser interferometer: application in measurements, optical flat analysis, machine tool metrology: coordinate measuring machine (CMM): need, construction, types, applications, computer aided inspection. 14M14ME744 DESIGN OF HEAT EXCHANGERS Classification of heat exchangers: recuperation and regeneration, transfer processors, geometry of construction–tubular heat exchangers, plate heat exchangers, extended surface heat exchanges, heat transfer mechanisms, flow arrangements, selection of heat exchangers. basic design methods of heat exchanges: arrangement of flow path in heat exchangers , basic equations in design, overall heat transfer coefficient , log mean temperature difference method for heat exchanger analysis , the -ntu method for heat exchanger analysis, heat exchanger design calculation, variable overall heat transfer coefficient , heat exchanger design methodology. design correlations for condensers and evaporators: condensation, film condensation on a single horizontal tube-laminar film condensation, forced convection, film condensation in tube bundles-effect of condensate inundation, effect of vapor shear, combined effects of inundation and vapor shear, condensation inside tubes-condensation in vertical tubes. shell and tube heat exchangers: basic components-shell types, tube bundle types, baffle type and geometry, basic design procedure of a heat exchanger-preliminary estimation of unit size, rating of

preliminary design, bell-delaware method. compact heat exchangers: plate-fin heat exchangers, tube-fin heat exchangers, heat transfer and pressure drop-heat transfer, pressure drop for finned-tube exchangers, pressure drop for plate-fin exchangers, gasketed plate type heat exchangers. 14B14ME745 REVERSE ENGINEERING

Definition of reverse engineering (re), need for re, three phases in the generic re process – scanning (contact and non-contact scanners), point processing and geometric modeling. techniques for re with laser scanners: computer-aided reverse engineering (care), computer vision and reverse engineering – coordinate measuring machine (cmm), stereo vision, benefits and drawback of active stereo w.r.t. cmm; structured light range imaging, scanner pipeline – data collection, mesh reconstruction and surface fitting; re hardware and software: hardware – contact, non-contact and destructive methods, software – re software classification, re phased and operations. selection of an re system, relationship between re and additive manufacturing (am), re in automotive, aerospace and medical devices industry, copyright law and legal aspect of reverse engineering. 14B14ME746 PLANT LAYOUT & MATERIAL HANDLING

plant layout and management, management factors effecting plant planning, plant layout organization in different plants, types of plant layout characteristics and qualifications required in plant layout engineer. plant layout factor: steps in designing a plant layout, preliminary survey, developments necessitating plant layout, product design, functional design and production design, factors influencing plant layout, material, machinery, man movement within service, building and charge, consideration of management policies and layout objectives, plant sector and its influence on plant layout, plant layout tools and techniques, product layout, process layout, group layout and jit layout. layout of a new plant: expanding the plant, revising the plant to accommodate technologies advances in product design and equipment, improving the layout through analysis and work simplification. material handling: materials handling principles, work simplification, cost factors, equipment procedures for establishing and improving the layout through materials handling systems. materials handling equipments: lifting and lowering devices (vertical motion), transporting devices (horizontal motion), combination devices (lifting and lowering plus transportation)-conveyors, cranes, hoists, lifts, chutes etc.

14B14ME747 GAS TURBINE AND JET PROPULSION

Gas turbines: classification, application. gas turbine and its components, gas turbine power plants. optimum pressure ratio for maximum specific and thermal efficiency in actual gas turbine cycle, effect of operating variables on thermal efficiency, air rate and work ratio. combustion chamber: types of combustion chamber, factors affecting combustion chamber design, combustion processes, combustion chamber performance, fuel injection systems, axial flow turbines & combustion chamber: vortex theory, limiting factors in turbine design, overall turbine performance, design performance of gas turbine plant, matching of turbine components. centrifugal compressors: prewhirling, adiabatic efficiency, performance characteristics, pressure coefficient and slip factor, losses, surging, compressor

design calculations, mach number. axial flow compressors: principles of operation, simple design method, blade design, calculation of stage, overall performance, compressor characteristics, mach number, reynolds number. jet propulsion: turbo jet, turbo prop, ram jet, rocket engines thrust power, propulsive efficiency and thermal efficiency, jet propulsion performance, specifying thrust and specific fuel consumption in each case for turbo jet and turbo propulsion units.

14B14ME748 COMPOSITE MATERIALS

IGeneral introduction and concept, Historical development, Concept of composite materials, Material properties that can be improved by forming a composite material & its engineering potential, basic definition, and advantages of composites materials. classification and processing methods: types of reinforcements/fibers, matrix materials. classification based on matrix material: organic matrix composites, polymer matrix composites (pmc), carbon matrix composites or carbon-carbon composites, metal matrix composites (mmc), ceramic matrix composites (cmc). classification based on reinforcements: fiber reinforced composites, fiber reinforced polymer (frp) composites, laminar composites, particulate composites. behaviour of composites: mechanical properties and other characteristics of different composite materials, failure modes. applications: application of important composite materials such as metal matrix, ceramic matrix, and polymer matrix in various fields of engineering. 14B14ME749 INDUSTRIAL STATISTICAL QUALITY CONTROL

Quality improvement in the modern business environment: meaning of quality, quality improvement, brief history, management aspects, dmaic process, steps. statistical methods useful in quality improvement: describing variation, discrete and random distribution, probability plots, statistics and sampling distributions, statistical inference of a single sample and two samples, linear regression model, hypothesis testing. methods and philosophy of statistical process control: a statistical basic of control chart, control charts for variables, control charts for attributes. process and measurement system capability analysis: process capability analysis using histogram or a probability plot, using control chart using designed experiments with attribute data, setting specification limits, estimating natural tolerance limits. process design and improvements with designed experiments: experimental design, 2k factorial design, response surface methods and design. acceptance sampling: single sampling, double sampling, multiple sampling, sequential sampling, aoql, ltpd, chain sampling. YEAR/SEM: IVTH YEAR/VIII SEM

14B14HS841 KNOWLEDGE MANAGEMENT

Introduction, Types of Knowledge, Knowledge workers, Valuing knowledge, Communities of Practice, Content management, Creativity and Innovation, Knowledge management strategies, Business process and the process oriented organization, Information and communication technologies (ICT),

Management of intellectual capital, Different level of Knowledge management, Organizational culture, Developing human capital, Building and managing the knowledge repository.

14B14HS842 INDUSTRIAL PSYCHOLOGY

Definitions & Scope of Industrial Psychology, Major influences on industrial Psychology- Scientific management and human relations schools Hawthorne Experiments. Motivation : Theories of Motivation: Early and Contemporary views, Three level Work Motivation Model, Motivating a Diverse Workforce, Stress management: Understanding Stress and Its Consequences, Causes of Stress, Managing Stress, Leadership: Style and Theories of Leadership-Trait, Behavioural and Situational Theories. Fatigue, Boredom, Accidents and safety, Job Analysis, Job Satisfaction, Recruitment and Selection – Different types of recruitment and selection tests, Reliability & Validity of recruitment tests. Group Dynamics: Definition, Stages of Group Development, Group Cohesiveness, Formal and Informal Groups, Group Processes and Decision Making, Dysfunctional Groups, Organizational culture : Organisational Culture: Concept, Characteristics, Elements of Culture, Implications of Organisation culture, Process of Organisational Culture.

14B14HS843 SUPPLY CHAIN MANAGEMENT

Introduction: Basic Concept & Philosophy of Supply Chain Management; Essential features, Various flows (cash, value and information), Key Issues in SCM, benefits and case examples. Logistics as part of SCM, Logistics costs, different models, logistics sub-system, inbound and outbound logistics, bullwhip effect in logistics, Distribution and warehousing management, Purchasing & Vendor management: Centralized and decentralized purchasing, functions of purchase, department and purchase policies. Use of mathematical model for vendor rating/evaluation, single vendor concept, management of stores, accounting for materials. Concept, various costs associated with inventory, various EOQ models, buffer stock ( tradeoff between stock out/working capital cost), lead time reduction, re-order point/re-order level fixation, exerises –numerical problem solving , ABC, SDE/VED Analysis, Just-In-Time & Kanban System of Inventory management. Role of Computer/IT in Supply Chain Management, CRM Vs SCM, Benchmarking concept, Features and Implementation, Outsourcing-basic concept, Value Addition in SCM-concept of demand chain management.

14B14HS845 STRATEGIC MANAGEMENT

Introduction, Strategic Management, Business Policy, Corporate Strategy, Basic Concept of Strategic Management, Mission, Vision, Objectives, Impact of globalization, Basic Model of Strategic Management, Strategic Decision Making, Impact of Internet and E-Commerce, Role of Strategic Management in Marketing, Finance, HR and Global Competitiveness. Environmental Scanning, Industry Analysis, Competitive Intelligence ETOP Study, OCP, SAP Scanning, Corporate Analysis, Resource based approach, Value-Chain Approach, Scanning Functional Resources, Strategic Budget and Audit. SWOT Analysis, TOWS Matrix, Various Corporate Strategies: Growth/Expansion,

Diversification, Stability, Retrenchment & Combination Strategy. Process of Strategic Planning, Stages of corporate development, Corporate Restructuring, Mergers & Acquisitions, Strategic Alliances, Portfolio Analysis, Corporate Parenting, Functional Strategy, BCG Model, GE 9 Cell, Porters Model: 5 Force and Porters Diamond Model, Strategic Choice. Strategy Implementation through structure, through Human Resource Management: through values and ethics. Mc Kinsey’s 7S Model, Organization Life Cycle, Management and Control, Activity based Costing, Strategic Information System.

14B14ME841 COMPUTATIONAL FLUID DYNAMICS

INTRODUCTION: history, comparison of the three basic approaches for engineering problems in solving by analytical, experimental and computational methods, beam advance in computational techniques. lagrangian and eulerian concept. problem formulation: formulation of problem, physical and mathematical classification of problems, types of governing differential equations. methods of discretisation: basic of finite difference method, finite element method, finite volume method and spectral method, treatment of boundary conditions. numerical solution of fluid flow and convective heat tranfer problems: types of fluid flow and their governing equation, viscous incompressible flows calculation of flow field using the stream function-vorticity method, calculation of boundary layer over a flat plate, numerical algorithm for solving complete navier-stokes equation-mac method simple algorithm, project problem. numerical solution of heat conduction problems: steady-state problems, one dimensional heat conduction transfer through a pin-fin-din, two dimensional conduction through a plate unsteady state problem, one dimensional transient heat conduction, explicit and implicit methods, stability of numerical methods. 14B14ME842 TRIBOLOGY

History of tribology, Properties of lubricants-viscosity, effect of temperature and presence on viscosity, measurement of viscosity, generalized reynolds equation, flow and shear stress, energy equation. hydrodynamic: bearings-mechanism of pressure development, idealized general bearing, numerical solution of finite bearings, circumferential and aerial flow, oil flow through a bearing having circumferential oil groove, thermal equilibrium, design of general bearing. parelled surface and step squeeze film bearing: mechanism of hydrodynamic instability, stiffness and damping coefficient, stability, effect of surface roughness on general bearing. hydrostatic bearing- system of hydrostatic lubrication: circular step bearing, rectangular thrust bearing, opposed pad bearing, multirecces general bearing. hydrostatic lift. elastohydrodynamic lubrication (ehl): hydrodynamic equation, elastic deformation, grubin type solution, accurate solution, dimensionless parameters, film thickness equations, different regimes in the ehl contact. ehl point contact and line control. ball bearing: deep groove radial bearing, angular contact bearing thrust ball bearing, geometry and kinematics, stress and deformation, load capacity, prediction of fatigue life, lubrication. laws of friction: friction theory, friction heating, effect of sliding speed on friction, Classification of wear, Mechanism of wear. Delamination theory of wears, Wear resistance materials. 14B14ME843 RELIABILITY ENGINEERING

Probability concept, Addition of probabilities, complimentary events, kolmogorov axioms. failure data analysis: introduction, mean failure rate, mean time to failure (mttf), mean time between failures ( mtbf), graphical plots, mttf in terms of failure density, mttf in integral form. hazard models: introduction, constant hazard, linearly increasing hazard, weibull model, density function and distribution function, reliability analysis, important distributions and their choice, standard deviation and variance. conditional probability: introduction, multiplication rule, independent events, vernn diagram, hazard rate as conditional probability, bayes theorem. system reliability: series, parallel and mixed configurations, complex systems, logic diagrams, markov models, maintenance planning, reliability and maintainability trade – off. reliability improvement & repairable systems: redundancy, element, unit and standby redundancy, optimization, reliability – cost trade- off, introduction to repairable systems, instantaneous repair rate, mttr, reliability and availability functions, important applications, fault-tree construction, calculation of reliability, tie- set and minimal tie-set.

14B14ME844 PRODUCTION PLANNING

Objective of PPC, function of ppc, steps in production planning and control. effectiveness of ppc. role of industrial engineer, application of industrial engineering, industrial engineering & production management. material management and forecasting: inventory: function and types of inventory, abc analysis, eoq of deterministic inventory model (single item). forecasting: simple moving average method, weighted moving average, simple exponential smoothing method, break even analysis. planning activities: aggregate planning, master production schedule (mps), material requirement planning (mrp), mrp-ii, enterprise resource planning (erp), facility layout (plant layout), productivity & types of productivity. control activities: capacity planning, assembly line balancing, sequencing, scheduling, dispatching. production system &types of production system, just in time (jit) in production system, introduction and object of value engineering. project management: gantt chart, cpm and pert, basic difference between cpm and pert, terminology in project management, phase of project management. queuing theory: introduction, structure of queuing system, characteristic of queuing system, performance measure of queuing system. 14B14ME845 FUNDAMENTAL OF COMPRESSIBLE FLOWS

BASIC CONCEPTS AND ISENTROPIC FLOWS: energy and momentum equations of compressible fluid flows – stagnation states, mach waves and mach cone – effect of mach number on compressibility – isentropic flow through variable ducts – nozzle and diffusers – use of gas tables. flow through ducts: flows through constant area ducts with heat transfer (rayleigh flow) and friction (fanno flow) – variation of flow properties – use of tables and charts – generalised gas dynamics. normal and oblique shocks: governing equations – variation of flow parameters across the normal and oblique shocks – prandtl – meyer relations – use of table and charts – applications. jet propulsion: theory of jet propulsion – thrust equation – thrust power and propulsive efficiency – operation principle, cycle analysis and use of stagnation state performance of ram jet, turbojet, turbofan and turbo prop engines. space propulsion: types of rocket engines – propellants-feeding systems – ignition and combustion –

theory of rocket propulsion – performance study – staging – terminal and characteristic velocity – applications – space flights.

14B14ME846 ROBOTICS ENGINEERING

Past, present & future, robot terminology, applications, components and subsystems. classification of robot, end effectors, different types of grippers and design concepts. robot kinematics: object location: homogenous, transformations. direct and inverse kinematics, manipulator motion. robot drives, actuators and control: drive systems: hydraulic, pneumatic and electrical. dc motor, stepper motor, robot motion, and path control, controller. sensors and perception: types of sensors, vision system, computer interfaces.

14B14ME847 ENERGY MANAGEMENT PRINCIPLES

Initiation phase, audit and analysis phase, implementation phase, general methodology for building and site energy audit, site survey, methodology, site survey-electrical system, steam & water systems, building survey methodology, basic energy audit instrumentation, measurements for building surveys. management of heating and cooling general principles: the requirements for human comfort, description of typical systems-dual duct hvac system, multi zone hvac systems, variable a volume system, terminal reheat system, evaporative hvac systems, modeling of heating and cooling loads in buildings. electrical load and lighting management: general principles, illumination and human comfort, basic principles of lighting system, typical illumination system and equipment, fundamentals of single phase and 3-phase a.c. circuits, energy management opportunities for lighting systems, motors and electrical heat, electrical load analysis and their parameters, peak, demand control. management of process energy: general principles, process heat, combustion, energy saving in condensate return, steam generation & distribution, auto-motive fuel control, hot water and water pumping, direct & indirect fired furnaces over, process electricity, other process energy forms – compressed air & manufacturing processes. economics of efficient energy use: general consideration life cycle costing, break even analysis, cost of money, benefit / cost analysis, pay back period analysis, present worth analysis, equivalent annual cost analysis, capital cost analysis, perspective rate of return. integrated building system: general principles, environmental conformation, passive design consideration, building envelope design consideration, integration of building system, energy storage. use of computer for energy management: energy management, energy management principle involving computers, basics of computer use, analysis – engineering & economic calculations, simulation, forecast, cad/cam, controls – microprocessor & minicomputers, building cycling & control, peak demand limiting & control, industrial power management

14B14ME848 TURBOMACHINERY

Definition of a turbomachine; parts of a turbomachine; comparison with positive displacement machine; classification: application of first and second laws to turbomachines, efficiencies. specific speed; sonic velocity and mach number; classification of fluid flow based on mach number; stagnation and static properties and their relations; compression process – overall isentropic efficiency of

compression; stage efficiency; comparison and relation between overall efficiency and stage efficiency; polytropic efficiency; preheat factor; expansion process – overall isentropic efficiency for a turbine; stage efficiency for a turbine; comparison and relation between stage efficiency and overall efficiency for expansion process; polytrophic efficiency of expansion; reheat factor for expansion process. energy transfer in turbo machine: euler turbine equation; alternate form of euler turbine equation – components of energy transfer; degree of reaction; general analysis of a turbo machine – effect of blade discharge angle on energy transfer and degree of reaction; general analysis of centrifugal pumps and compressors – effect of blade discharge angle on performance; theoretical head – capacity relationship; general analysis of turbo machines: Axial flow compressors and pumps – general expression for degree of reaction; velocity triangles for different values of degree of reaction; general analysis of axial and radial flow turbines – utilization factor; vane efficiency; relation between utilization factor and degree of reaction; condition for maximum utilization factor – optimum blade speed ratio for different types of turbines. centrifugal compressors: classification; expression for overall pressure ratio developed; blade angles at impeller eye root and eye tip; slip factor and power input factor; width of the impeller channel; compressibility effect – need for pre-whirl vanes; diffuser design: flow in the vaneless space, determination of diffuser inlet vane angle, width and length of the diffuser passages; surging of centrifugal compressors. centrifugal pumps: definition of terms used in the design of centrifugal pumps like manometric head, suction head, delivery head, pressure rise, manometric efficiency, hydraulic efficiency, volumetric efficiency, overall efficiency, multistage centrifugal pumps, minimum starting speed, slip, priming, cavitation, npsh. steam turbines: classification, single stage impulse turbine; condition for maximum blade efficiency, stage efficiency. compounding – need for compounding, method of compounding. impulse staging – condition for maximum utilization factor for multi stage turbine with equiangular blades; effect of blades and nozzle losses. reaction turbine; parson’s reaction turbine, condition for maximum blade efficiency, reaction staging. hydraulic turbines: classification; pelton turbine-velocity triangles, design parameters, turbine efficiency, volumetric efficiency; francis turbine – velocity triangles, runner shapes for different blade speeds, design of francis turbine; function of a draft tube, types of draft tubes; kaplan and propeller turbines – velocity triangles and design parameter. 14B14ME849 AUTOMOBILE ENGINEERING Classification, components, requirements of automobile body, vehicle frame, separate body & frame, unitised body, front engine rear drive & front engine four wheel drive vehicles, safety considerations. clutches: principle of clutches: friction, cone, single plate, diaphragm spring, multi plate, centrifugal, electromagnetic, over running of clutches, clutch linkages. power transmission: requirements of transmission system, general arrangement of power transmission system, gear box, different types of gear boxes, epi-cyclic gear box, flywheel unit, overdrive unit-principle of overdrive, advantage of overdrive, transaxle, transfer cases. drive lines, universal joint, differential and drive axles: effect of driving thrust and torque reactions, hotchkiss drive, torque tube drive and radius rods, propeller shaft, universal joints, slip joint, constant velocity universal joints, construction & operation of differential, rear axles, types of load coming on rear axles, full floating, three quarter floating and semi floating rear

axles. suspension & steering systems: need of suspension system, types of suspension, factors influencing ride comfort, suspension spring, constructional details and characteristics of leaf springs, front wheel geometry & wheel alignment, different types of steering gear boxes, steering linkages and layout, power steering. automotive brakes, tyres & wheels: classification of brakes, principle and constructional details of drum brakes, disc brakes, brake actuating systems, factors affecting brake performance, power & power assisted brakes, tyres of wheels, types of tyre & their constructional details, wheel balancing, tyre rotation, types of tyre wear & their causes. emission control system & automotive electrical: sources of atmospheric pollution from the automobile, emission control systems – construction and operation of positive crank case ventilation (pvc) systems, purpose construction & operation of lead acid battery, capacity, rating & maintenance of batteries, purpose and operation of charging systems, purpose and operations of the starting system, vehicle lighting system.

14B14ME850 FINITE ELEMENT TECHNIQUE

Introduction, Historical background, stresses and equilibrium, boundary conditions, strain-displacement, relations, stress- strain relations, the rayleigh-ritz method, galerkin’s method, saint venant’s principle, matrix algebra, gaussian elimination. one-dimensional problems finite element modeling, coordinates and a shape functions, potential energy approach, galerkin approach treatment of boundary conditions, quadratic shape functions, temperature effects. two-dimensional problems using constant strain triangles: finite element modeling, constant strain triangle, axis symmetric solids subjected to axis symmetric loading, axis symmetric formulation, finite element modeling, triangular element. two dimensional isoparametric elements and numerical integration: introduction, four- node quadrilateral, numerical integration stress calculations, high – order element, nine-node quadrilateral, eight-node quadrilateral, six-node triangle, comment on midside node. beams & frames: introduction, finite element formulation, load vector, boundary considerations, shear force and bending moment, beams on elastic supports, plane frames. three-dimensional problems in stress analysis: introduction, finite element formulation, stress calculations, mesh preparation, hexahedral elements and higher- order elements. dynamic considerations: introduction, formulation, element mass matrices: evaluation of eigen values and eigenvectors, interfacing with previous finite element programs and a program for determining critical speeds of shafts.

14M14ME851 CONCURRENT ENGINEERING

Fundamentals of concurrent engineering, need and basic principles of concurrent engineering, benefits of implementation of concurrent engineering, introduction to various integrating mechanisms, forming of concurrent engineering team. teamwork: interfacing of manufacturing and design, selection of key techniques and methodologies, selection of concurrent engineering tools. quality by design: quality function deployment methodology, taguchi methods of robust design. Design for manufacturability: virtual manufacturing, introduction to value engineering, value engineering analysis and techniques, design for assembly: introduction to various dfa technologies. rapid prototyping (rp) need and use of rapid prototyping, various rapid prototyping technologies, design for reliability,

reliability fundamentals and design for reliability principles, design for serviceability, factors affecting serviceability, serviceability evaluation, design for maintainability and economics.

14B14EC749 INTRODUCTION TO MICROPROCESSORS & MICROCONTROLLERS

Introduction to Microprocessor and Microcontrollers. Microprocessor and microcontroller based computer systems, Classification of microprocessors. 8051 and its flavors, A microcontrollers survey, Development system for microcontrollers and case studies. Microprocessor and Microcontroller Architecture: Introduction, 8085/8086: Internal microprocessor Architecture, Real mode memory addressing, Introduction to protected mode memory addressing. 8051: microcontrollers Hardware, Input/Output pins, ports & circuits, External memory, counters & timers, Serial Data input/output, interrupts. Addressing modes: 8085: addressing mode , 80x86: Data-Addressing modes, Program memory –addressing modes, stack memory addressing modes, and 8051 addressing mode: Comparison with microprocessors, External data moves, code memory read only data moves Push & pop opcodes, Data exchanges, Example programs. 8086/8088 Hardware specification: pin-outs and the pin function, Clock generators, Bus buffering & latching, Bus timings, Ready and wait states, Minimum mode versus maximum mode. Memory Interface: Memory Devices, Memory interface, 8086, 80186, 80286, 80386sx(16bit) memory interface, Pentium ,Pentium pro and Pentium II(64-bit) memory interface, Dynamic RAM. Interrupts for Microprocessors and Microcontrollers: Basic Interrupt processing, Hardware interrupts, Expanding the interrupts structures, 8259A, Interrupt examples. I/O Interfacing: Memory organization & Interfacing, Internal architecture and programming concept of I/O Chips: 8251, 8253/54, 8255, 8257, 8259. Direct Memory Access & DMA Controlled I/O: Basic DMA controller, The 8237 DMA controller, Shared –Bus operation, Disk memory System, video display.

14B14PH731 NANOSCIENCE AND TECHNOLOGY

Nanoscience and Nanotechnology, Brief History and future scope, Gleiter's classification of nano-structured materials, Classification of nanostructures by dimensionality. Fullerene, Nanotubes, Graphene. Conceptual background: Concept of matter waves, Schrodinger wave equation, confinement, particle in a potential box, barrier penetration and tunneling effects, concept of density of states. Size effects and properties of nano-structured materials: Concept of characteristic time and length scales of physical phenomena, Definition and types of size effects, extended internal surface, increasing surface energy and tension, Grain boundaries, classical and quantum size effects, size dependent thermal, mechanical, electrical, magnetic and optical properties of nano-structured materials e.g. Reduction of lattice parameter, decrease in melting point, decreasing thermal conductivity, diffusion enhancement, increasing plastic yield strength and hardness, blue shift, broadening of energy bands, phase transitions in ferromagnetic and ferroelectric material. Techniques for synthesis of Nanostructures: Top-down and Bottom approaches, Vapor – phase synthesis, Liquid phase synthesis, Sol-gel technique, Solid – state phase synthesis, consolidation of nano-powders, Basic characterization and microscopy of Nanostructure materials: X-ray diffraction (XRD), UV- visible, FTIR, TGA, Scanning Electron

microscopy (SEM), Transmission electron Microscopy (TEM), Scanning probe microscopy, Scanning tunneling Microscopy (STM) and Atomic Force microscopy (AFM). Nanotechnology Applications: Applications of Nanostructures for diversified fields of Engineering. 14B14MA845 MATHEMATICAL METHODS IN ENGINEERING

Systems of linear algebraic equations: introduction to linear system. fundamental definitions and operations of matrix analysis. solutions of linear algebraic systems. applications to chemical engineering nonlinear algebraic equations: solution of a single equation in one unknown. Systems of nonlinear algebraic equations. ordinary differential equations: review of ode of various types. Application in velocity profile for laminar flow in circular tubes and annulus, heat conduction with chemical heat source, diffusion with homogeneous chemical reaction, reactions of various orders in batch reactors. Numerical methods covering euler, runge-kutta and predictor-corrector method. Shooting method for bvp. systems of differential equitation’s. partial differential equations: introduction to formulation and classification of pdes, solving pde by finite difference techniques. applications in heat and mass transfer and chemical reactions. numerical methods for unconstrained single and multi variable optimization: Newton’s, quasi-Newton, secant, region elimination method: golden section, fibonacci, dichotomous search. direct method: univariate search, conjugate directions search. indirect method: gradient, conjugate gradient, and newton. transform methods: fourier transform and its application to chemical engineering. 14B14PH744 NONLINEAR DYNAMICS APPLICATIONS

FIRST-ORDER SYSTEMS: First-order ordinary differential equations, flows on the line, autonomous systems, geometrical conceptions, fixed points and their stability, linear stability analysis, existence and uniqueness, potential formulation in an autonomous equation, the logistic equation (of an arbitrary degree of nonlinearity), power laws and exponential growth with saturation effects, bifurcations, flows on the circle, the uniform oscillator, the nonuniform oscillator and the overdamped oscillator. SECOND-ORDER SYSTEMS: Second-order ordinary differential equations, plane autonomous systems, the phase portrait and phase trajectories, coupled first-order autonomous dynamical systems, equilibrium points, linearised approximation near equilibrium points, the general solution of linearised autonomous dynamical systems and classification scheme for equilibrium points, Hamiltonian systems, closed paths and limit cycles, homoclinic and heteroclinic trajectories, Poincare-Bendixson theorem, Lienard systems, further concepts in bifurcation. CHAOS: Lorenz equations, one-dimensional maps, intermittency, Liapunov exponent, fractals, strange attractors.

14B19ME891 (Part-II) Project is a course requirement wherein under the guidance of a faculty member, a final year student is required to do an innovative work with application of knowledge earned while undergoing various courses and laboratories in the course of study. The student is expected to do literature survey

and carry out development and/or experimentation. Through project work the student has to exhibit both analytical and practical skills. The project is done in two semesters, i.e. 7th and 8th, on a continuous problem.