SYLLABUS B.TECH. (MECHANICAL ENGINEERING)

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  • (Syllabus i.e. applicable for batch joined in 2013)

    1

    SYLLABUS

    B.TECH. (MECHANICAL ENGINEERING)

    MA1304 ENGINEERING MATHEMATICS-III [4 0 0 4]

    Introduction of vector, brief idea of scalar and vector product of two vectors as well three vectors and properties, Brief idea of scalar and vector product of four vectors and properties, Vector Calculus, gradient, divergence and curl, vector integrals, related theorems, Fourier series, Fourier sine and cosine transforms, Fourier integrals, Partial differential

    equations, study of heat and wave equations, Interpolation and extrapolation, Numerical

    differentiation, Numerical integration, Difference equations with constant coefficients, Gauss

    Jacobi, Gauss Seidel and relaxation methods, LU decomposition method, Largest Eigen value by

    the power method.

    Text Books:

    1. B. S. Grewal, Higher Engineering Mathematics, Khanna Publishers, Delhi, 2006. 2. E. Kreyzig, Advanced Engineering Mathematics, Wiley Eastern, 2006.

    References:

    1. M R. Spiegel, Vector Analysis, S Chand Publishing Co, 2009

    ME1301 BASIC ENGINEERING THERMODYNAMICS [4 0 0 4]

    Introduction

    Definition and concepts: System, Energy, Work; Thermodynamic equilibrium; Properties; Heat

    & Work; Zeroth Law of Thermodynamics, Perfect gas scale.

    First law of Thermodynamics: Consequences of first law of thermodynamics, Analysis of

    closed system. Thermodynamic property of fluids, Equation of state, Compressibility chart,

    Thermodynamic diagrams and tables. Application of first Law of Thermodynamics, Control

    Volume analysis: Steady flow and transient flow; Limitations of First law of Thermodynamics;

    Second Law of Thermodynamics: Reversibility, Carnot cycle, Carnot theorems,

    Thermodynamics-temperature scale, clausius inequality;

    Entropy: Calculation of entropy change; Control Volume Analysis; Criterion of equilibrium;

    Thermodynamics definition of temperature, pressure and chemical potential; Thermodynamics

    potentials, Maxwell relations; availability and reversibility.

    Power Cycle: Gas Power cycle:- Air standard cycle; Carnot, Otto, Diesel, Dual and Stirling

    cycles, p-v and T-s diagrams, description, efficiencies and mean effective pressure, performance

    testing of I.C.Engine, heat balance sheet. Gas turbine (Brayton) Cycle, description and analysis.

    Vapor Power Cycle:- Carnot vapor power cycle and its limitations. Simple Rankine cycle;

    description, T-s diagram, analysis for performance. Comparison of Carnot and Rankine cycles.

    Actual vapor power cycles. Ideal and Practical regenerative Rankine cycles, open and closed

    feed water heaters. Reheat Rankine cycle.

    TEXT BOOKS:

    1. An Introduction to Thermodynamics, Y.V.C. Rao, University Press (India) Private

    Limited, Revised Edition, 2004.

  • (Syllabus i.e. applicable for batch joined in 2013)

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    2. Thermodynamics: an Engineering Approach, Y.A. Cengal and M.A. Boles, McGraw

    Hill (Fifth Edition).

    3. Fundamentals of Classical Thermodynamics, G. VanWylen, R.Sonntag and C.

    Borgnakke, John Willey & Sons (Fourth Edition).

    4. Engineering Thermodynamics, P.K.Nag, Tata McGraw Hills, New Delhi, 2006.

    References:

    1. C.Yunus and B.Michael, Thermodynamics, McGraw Hills, New York, 2006.

    2. V.Wylen, G.J. and R.E.Sonntag., Fundamentals of Classical Thermodynamics, John

    Wiley, New York, 1985.

    3. S.C.Gupta, Thermodynamics, Pearson Education, Delhi, 2005.

    4. A.Mayhew and B.Rogers, Engineering Thermodynamics, E.L.B.S. Longman, London,

    1994.

    ME 1302 KINEMATICS OF MACHINERY [4 0 0 4]

    Mechanism and Machine: constrained motion, Rigid and resistant bodies, Link, Kinematic pair

    and degrees of freedom. Kinematic chain: Linkage mechanism and structure, Four bar chain

    and slider crank chain and its inversions, Instantaneous Centers. Velocity and Acceleration

    analysis. Cam: Types, followers, definitions, displacement, derivatives, design of cam profiles,

    lay out and different types of contours of cams. Introduction to synthesis of mechanism:

    Transmission angle, definition and determination of maximum and minimum transmission angle,

    Two and three position synthesis of four bar mechanism and slider crank mechanism using

    graphical method. Friction: Inclined plane, Flat Pivot and Collar friction, Power loss due to

    friction, problems on single plate clutch, multiple plate clutches, and cone clutch. Brakes and

    Dynamometers. Gear: Law of gearing, Spur Gears: Definitions, cycloidal and involute teeth,

    rack and pinion, path of contact, arc of contact, minimum number of teeth , methods of avoiding

    interference, Terminology of helical and bevel gears. Gear Trains: Simple, Compound,

    Reverted, Epicyclic gear trains, Problems to be solved by Tabular Method, Torque calculations,

    Automobile differential gear mechanism.

    Text Books:

    1. S.S. Rattan, Theory of machines, Tata McGraw Hill, 2005.

    References:

    1. J.S. Rao & Dukkipati, Theory of machines and mechanisms, New Age International, 2004. 2. Hamilton H. Mabie and Oevirk, Mechanisms and dynamics of machines, John Wiley and

    sons, 1987.

    3. J.E.Shigley and Jr.Uicker, Theory of Machines and Mechanisms, McGraw Hill International, 1995.

  • (Syllabus i.e. applicable for batch joined in 2013)

    3

    ME1303 MANUFACTURING PROCESS ENGINEERING [3 0 0 3]

    Introduction: Patterns, allowances and material used, moulding, moulding sands, properties;

    sand testing, Cores and core making, chaplets. Casting practices: Fundamental of metal casting,

    sand casting, Shell-Mould casting, mold casting(plaster and ceramic), investment casting,

    vacuum casting, Permanent mould casting, slush casting, pressure casting, die casting,

    centrifugal casting, continuous casting, squeeze casting, casting alloys, casting defects.

    Metal Joining Processes: Principle of welding, weldability, soldering, brazing and adhesive

    bonding; Arc welding: power sources and consumables. Gas welding and cutting: Processes and

    equipments; Resistance welding: principle and equipments. Spot, projection and seam welding

    process. Atomic hydrogen, ultrasonic, plasma and laser beam welding, electron beam welding,

    and special welding processes e.g. TIG, MIG, friction and explosive welding, welding of C.I. and

    Al, welding defects. Electrodes and Electrode Coatings. Machine Tools: Lathe, Shaping

    Machine, Planer, Drilling machine, Milling machine, Grinding machine, Finishing machines.

    Advanced Material Testing methods: Visual and liquid penetrant methods, ultrasonic,

    magnetic-particle & Eddy-current Inspection, Acoustic methods, Radiography.

    Text Books:

    1. P.C.Sharma, A Textbook of Production Technology, S.Chand, 2008.

    References:

    1. Lindberg, Processes and Materials of Manufacture, PHI, Delhi, 1983.

    2. P.Degamo, Materials and Processes of Manufacture, Macmillan, New York, 1988.

    3. P.N.Rao, Manufacturing Technology, Tata McGraw Hill, 2008.

    4. Campbell, Materials and Processes of Manufacture, Tata McGraw Hill, 1961.

    5. R. K. Jain, Production Technology, Khanna Publishers, 2007.

    ME1304 STRENGTH OF MATERIALS [3 0 0 3]

    Introduction: Rigid and Deformable bodies, Strength, Stiffness and Stability, Stresses, Tensile,

    Compressive and Shear, Deformation of simple and compound bars under axial load, Thermal

    stress, Elastic constants, Strain energy and unit strain energy, Strain energy in uniaxial loads;

    Beams-Loads and Stresses: Types of beams, Supports and Loads, Shear force and Bending

    Moment in beams, Cantilever, Simply supported and Overhanging beams, Stresses in beams,

    Theory of simple bending, Stress variation along the length and in the beam section , Effect of

    shape of beam section on stress induced, Shear stresses in beams, Shear flow; Torsion: Analysis

    of torsion of circular bars, Shear stress distribution, Bars of Solid and hollow circular section,

    Stepped shaft, Twist and torsion stiffness, Fixed and simply supported shafts; Beam deflection:

    Elastic curve of Neutral axis of the beam under normal loads, Evaluation of beam deflection and

    slope, Columns, End condition, Equivalent length of a column, Euler equation, Slenderness ratio,

    Rankine formula for columns; Analysis of stresses in two dimensions: Biaxial state of stresses,

    Thick & Thin cylindrical shells and spherical shells, Deformation in thick & thin cylindrical and

    spherical shells, Biaxial stresses at a point, Stresses on inclined plane, Principal planes and

    stresses, Mohrs circle for biaxial stresses, Maximum shear stress.

  • (Syllabus i.e. applicable for batch joined in 2013)

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    Text Books

    1. E.P.Popov, Engineering Mechanics of Solids, Prentice-Hall of India, New Delhi, 1997.

    2. F. P.Beer and R.Johnston, Mechanics of Materials, McGraw-Hill Book Co, 3rd ed, 2002.

    References:

    1. W.A.Nash, Theory and problems in Strength of Materials Schaums Outline Series, McGraw-Hill Book Co, New York 1995.

    2. S.M.A.Kazimi, Solid Mechanics, Tata McGraw-Hill Publishing Co, New Delhi1981.

    3. G.H.Ryder, Strength of Materials, Macmillan India Ltd., Third Edition, 2002.

    4. R.Hulse, K.Sherwin and J.Cain, Solid Mechanics, Palgrave ANE Books, 2004.

    5. D.K.Singh, Mechanics of Solids, Pears

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