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30th July 2015, 11:58 AM
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Join Date: Apr 2013
Re: DR.MGR University Mechanical Syllabus

As you are looking for the B.Tech Mechanical Engineering syllabus of Dr.M.G.R Educational and Research Institute , here I am providing same for you .

Semester -I
Mathematics -I for Mechanical Engineers
Fluid Mechanics and Machinery
Engineering Mechanics
Engineering Thermodynamics
Engineering Metallurgy

Semester –II
Numerical Methods For Mechanical And CivilEngineers
Manufacturing Technology-I
Thermal Engineering-I
Strength of Materials
Mechanics of Machines-I

Semester -III
Design of Machine Elements - I
Thermal Engineering-II
Mechanics of Machines - II
Electrical and Electronics Engineering
Dynamics Lab

Semester -I V
Engineering Metrology
Heat & Mass Transfer
Design of Machine Elements - II
Manufacturing Technology -II
Thermal Engineering Lab
Dr.M.G.R Educational and Research Institute B.Tech Mechanical Engineering syllabus
MATHEMATICS - I FOR MECHANICAL ENGINEERS 3 1 0 4
UNIT I: FUNCTIONS OF SEVERAL VARIABLES 12 Hrs
Partial derivatives – Total differential – Differentiation of implicit functions – Taylor’s expansion – Maxima and Minima by Lagrange’s Method of undetermined multipliers – Jacobians.
UNIT II: FOURIER SERIES 12 Hrs
Dirichlet’s conditions – General Fourier series – Half range Sine & Cosine series – Parseval’s identity – Harmonic Analysis.
UNIT III: APPLICATIONS OF PARTIAL DIFFERENTIAL EQUATIONS 12 Hrs
Classification of second order linear partial differential equations – Solutions of one dimensional wave equation, one-dimensional heat equation – Steady state solution of two dimensional heat equation (Cartesian coordinates only) – Fourier series solutions.
UNIT IV: LAPLACE TRANSFORMS 12 Hrs
Transforms of simple functions – Properties of Transforms – Inverse Transforms – Transforms of Derivatives and Integrals – Periodic functions – Initial and final value theorems – Convolution theorem – Applications of Laplace transforms for solving linear ordinary differential equations up to second order with constant coefficients and Linear simultaneous differential equations of first order with constant coefficients.
UNIT V: FOURIER TRANSFORMS 12 Hrs
Statement of Fourier integral theorem – Fourier transform pairs – Fourier Sine and Cosine transforms – Properties – Transforms of simple functions – Convolution theorem – Parseval’s theorem.
Total No. of Hrs : 60
TEXT BOOKS
1) Veerarajan T., (2007), “Engineering Mathematics (for first year)”, Tata McGraw Hill Publishing Co.
2) Veerarajan T., (2005) “Engineering Mathematics (for semester III)”, Tata McGraw Hill Publishing Co.

REFERENCES
3) Singaravelu, (2009) “Transforms and Partial Differential Equations”, Meenakshi Agency.
4) Kreyszig E., (2011) “Advanced Engineering Mathematics (9 th ed.)”, John Wiley & Sons.
5) Grewal B.S., (2012) “Higher Engineering Mathematics”, Khanna Publishers.

OBJECTIVES: The student will learn
 The basic properties of fluids.
 Flow behaviour in various sections with basic equations
 Working principles of hydraulic pumps and turbines

UNIT I: PROPERTIES OF FLUIDS 11 Hrs
Units & Dimensions, Properties of fluids – density, specific Gravity, specific weight, viscosity. Surface tension and Capillarity, Compressibility & Bulk modulus, Vapour pressure, Measurement of pressure-Manometers, Mechanical gauges.
UNIT II: FLUID FLOW CONCEPTS AND BASIC EQUATIONS 11 Hrs
Flow Characteristics, Concepts of System and Control Volume, Continuity, Energy equation- Euler equation- Bernoulli equation, Impulse momentum equation-applications.
UNIT III: FLOW THROUGH CIRCULAR CONDUITS 12 Hrs
Laminar flow through circular tubes – Boundary layer thickness -Darcy equation on pipe roughness – Friction factor – Minor losses – Flow through pipes in series and in parallel, Equivalent pipes.
UNIT IV: HYDRAULIC TURBINES 13 Hrs
Impact of free jets-work done and efficiency calculation, Classification of hydraulic turbines, Elementary working principles of Pelton, Francis, Kaplan turbine, Work done, Governing of turbines, Draft tube, Specific Speed.
UNIT V: HYDRAULIC PUMPS 13 Hrs
Reciprocating pumps : Classification, Working, Single acting and Double acting, Slip, Indicator diagram, Air vessels. Centrifugal pumps :Classification, Components, Working, Velocity triangles, Losses & Efficiency of a centrifugal pump, Pumps in series & parallel, Specific speed, Separation, Cavitations, Priming.
Total No. of Hrs : 60
TEXT BOOKS
1) Bansal S.K. (2012) “Fluid Mechanics and Hydraulic Machines”, Laxmi Publications (P) Ltd., New Delhi.
2) R.K.Rajput. (1998) “Fluid Mechanics and Hydraulic Machines”, S.Chand & Company Ltd., New Delhi.

REFERENCES
1) L.Kumar. (2002), “Engineering Fluid Mechanics”, Eurasia Publishing House (P) Ltd., New Delhi.
2) Roberson J.A. & Crowe C.T. (2001), “Engineering Fluid Mechanics”, M/s Jaico Publishing Co., 9th edition
3) Streeter V.L. and Wylie E.B. (1983), “Fluid Mechanics”, McGraw Hill.
4) Ramamirtham S. (1988), “Fluid Mechanics, Hydraulics and Fluid Machines”, Dhanpat Rai & Sons, Delhi.
5) Yunus.A.Cengel, Robert H.Turner., “Thermal-Fluid Sciences”, Tata McGraw Hill.

OBJECTIVES: The student will learn
 The vectorial and scalar representation of forces and moments.
 Static equilibrium of particles and rigid bodies both in two dimensions and in three dimensions.
 The principle of work and energy.
 The effects of friction on equilibriums, the laws of motion, the kinematics of motion and the inter-relationship.

UNIT I: STATICS 12 Hrs
STATICS OF PARTICLE: Introduction – Units and Dimensions – Laws of mechanics – concurrent forces in a plane-resolution and Composition of forces – equilibrium of the particle-resultant force. Forces in space – Equilibrium of a particle in space
STATICS OF RIGID BODY : Free body diagram – Types of supports and their reactions – Moments and Couples – Moment of a force about a point and about an axis – Varignon’s theorem – equilibrium of Rigid bodies in two dimensions –Equilibrium of Rigid bodies in three dimensions
UNIT II: PROPERTIES OF SURFACE AND SOLIDS 12 Hrs
Determination of Area and volume – Determination and derivation of First moment of area(Centroid), Second moment of area(Moment of Inertia) of Regular as well as irregular geometrical area – Centroid of line elements. Mass moment of inertia and polar moment of inertia. Principal moments of inertia of plane areas – Principal axes of inertia-Product of Inertia.
UNIT III: FRICTION 12 Hrs
Introduction – Laws of Dry Friction – Coefficient of friction – friction of a body lying on an inclined plane. Application of friction-Ladder friction-Wedge friction-Screw friction.
UNIT IV: DYNAMICS OF PARTICLES 12 Hrs
KINEMATICS: Displacement, Velocity-Constant and variable Acceleration, their relationship – linear and curvilinear motion- Projectile motion, relative motion.
KINETICS: Linear and Curvilinear motion-Work-Energy method, Impulse and Momentum, Impact-collision of Elastic bodies. Newton’s law-D’Alemberts principle.
UNIT V: DYNAMICS OF RIGID BODIES 12 Hrs
KINEMATICS: Introduction-Rotation-Linear and Angular Velocity as well as acceleration. General plane motion-Absolute and Relative velocity in plane motion. Instantaneous centre of Rotation in plane motion-Location.
KINETICS: Relation between Translatory and Rotary motion of the body-Work energy equation of particles –D’Alemberts principle.
Total No. of Hrs : 60
TEXT BOOKS
1) R.S.Khurmi. (2008), “A Textbook of Engineering Mechanics”, S.Chand & co Ltd.
2) S.Rajasekaran et.al. (2009), “Fundamentals of Engineering Mechanics”,Vikas Publishing House Pvt Ltd., 3rd Edition.

REFERENCES
1) Arthur.P.Boresi,Richard.J.Schmidt, “Engineering Mechanics : Statics &Dynamics”, Thomson Brooks/Cole,Chennai.
2) Palanichamy M.S, Nagan.S, (2001), “Engineering Mechanics – Statics and Dynamics” Tata Mc Graw Hill.
3) Beer & Johnson et.al, (2010) “Vector Mechanics for Engineers (Statics and Dynamics)”, Tata Mc Graw Hill.

OBJECTIVES: The student will learn
 Fundamentals concepts and laws of thermodynamics
 Various power cycles and their applications

UNIT I: BASIC CONCEPTS AND FIRST LAW OF THERMODYNAMICS 11 Hrs
Thermodynamics systems, Concepts of continuum, Thermodynamic properties, Equilibrium, Process, Cycle, Work, Heat, Temperature, Zeroth law of thermo dynamics. First law of thermodynamics – Applications to closed and open systems, Internal energy, Specific heats, Enthalpy, Steady flow conditions.
UNIT II: SECOND LAW OF THERMODYNAMICS 12 Hrs
Statements, Reversibility, Causes of irreversibility, Carnot cycle, Reversed Carnot cycle, Heat engines, Refrigerators, Heat pumps. Clausius inequality, Concept of Entropy, Principles of increase of entropy, Carnot theorem, Available energy, Availability, Introduction to energy.
UNIT III: WORKING FLUIDS 12 Hrs
Thermodynamic properties of pure substance, Property diagrams. PVT surface of water and other substances, calculation of properties. First law and second law analysis using tables and charts.
Properties of ideal and real gases, Equation of state, Gas laws. Vanderwal’s equation of state, Compressibility, Compressibility charts. Daltons law of partial pressures, Internal Energy, enthalpy, Specific heat and molecular weight of gas mixtures.
UNIT IV: POWER CYCLES 13 Hrs
Gas power cycles - Carnot, Otto, Diesel, Dual, Brayton Cycles. Vapour Power Cycles – Rankine, Modified Rankine, Reheat, Ideal Regenerative cycle.
UNIT V: THERMODYNAMIC RELATIONS 12 Hrs
Exact differentials, Maxwell relations, TdS relations, Difference and ratio of Heat Capacities, Energy Equation, Clausius Clapeyron equations, Joule-Thomson coefficient.
*NOTE: Use of Steam Table and Mollier Chart are permitted in Examination
TEXT BOOKS
1) P.K.Nag, (2012) “Engineering Thermodynamics” (fourth Edition), TataMcGraw Hill 5 Publishing Company Ltd., New Delhi.
2) Yunus A.Cengel, (2008) “Thermodynamics-An Engg. Approach”, Tata McGraw Hill, 6th edition.

REFERENCES
1) Spalding & Cole, “Engineering Thermodynamics”, ELBS, 6th edition.
2) J.P.Holman, (1988) “Thermodynamics”, McGraw Hill 109095, 4th edition,
3) Van Wylen & Sonntag, (1998) “Fundamentals of Classical Thermodynamics”, Wiley Eastern, 5th Edition.
4) Rogers & Mathew, (1992) “Engineering Thermodynamics”, Adison Wesley 1090909, 4th edition.
5) Michael Saad, (1966) “Thermodynamics”, Prentice Hall 109097.

OBJECTIVES: The student will learn
 Fundamental of metal structures,
 Properties of ferrous, non-ferrous and polymers.
 Heat treatment and testing of materials.

UNIT I: CRYSTALLOGRAPHY AND STRENGTHENING MECHANISMS 9 Hrs
Crystalline and amorphous solids - Unit cell and primitive cell - Miller indices BCC, FCC and HCP crystal structures and their packing factors –Crystalisation- Crystal defects - Effect of crystal imperfections in mechanical properties-Dislocations- strengthening mechanisms for the improvement of mechanical properties.
UNIT II: FERROUS AND NON FERROUS METALS 9 Hrs
Significance of Phase diagram-(Eutectic and Eutectoid alloy system)-Equilibrium and Non- Equilibrium cooling- Allotrophy of Iron-iron carbon phase diagram.
Classification of Steels and Cast Iron-Microstructure of Iron and Steel- Cast Irons - Grey, White malleable, spheroidal –Effect of alloying elements on steel - stainless and tool steels. Copper and Copper alloys - Brass, Bronze and Cupronickel –Aluminum and Al-Cu alloy
UNIT III: HEAT TREATMENT AND TESTING 9 Hrs
Definition - Classification of heat treatment process - Purpose of heat treatment -Principles (fundamentals) of heat treatment - Annealing –Re-crystallization- Normalizing - Hardening-TTT-CCT Cooling curves- Tempering - Interrupted quenching - Testing of materials - Destructive testing - Tensile, Compression, Hardness, Impact, Torsion, Fatigue. Non-destructive testing - Visual inspection, Hammer test, Radiography, Ultrasonic inspection.
UNIT IV: FAILURE MODES AND ITS PREVENTIONS 9 Hrs
Plastic deformation-Fracture - Mechanism of brittle fracture (Griffith’s theory) and ductile fracture -Difference between brittle and ductile fractures - Fatigue failure and its prevention - Creep - different stages in creep curve - Factors affecting creep resistant materials -Mechanism of creep fracture.
UNIT V: NON METALLIC AND NEWER MATERIALS 9 Hrs
Types, Properties and Application: Polymers, Ceramics and Metal matrix Composites –Super alloys, Nano-materials- carbon and metal based materials, Smart materials and their properties
TEXT BOOKS
1) Avner, (1997) “Introduction to Physical Metallurgy”, McGraw Hill International Book., second edition.
2) Williams D Callister, (2007) “Material Science and Engineering”, Wiley India Pvt Ltd, Revised Indian Edition.

REFERENCES
1) Raghavan, V., (2006) “Materials Science and Engineering”, Prentice Hall of India Pvt., Ltd.,” 5 th edition.
2) Muralidhara. M.K. (1998) “Material science and Process”, Danpat Rai Publishing.
3) Nayak, S.P., (1985) “Engineering Metallurgy and Material Science”, Character Publishing House, Anand, India.
4) Van Vlack, (1970) “Material Science for Engineers”, Addison Wesley, 10985,
5) Arumugam, M., (1997) “Material Science”, Anuradha Publishers.
6) O.P. Kanna (1999) “Material Science and Metallurgy”, Prentice Hall of India Pvt., Ltd.
For detailed syllabus , here is the attachment;
Attached Files
File Type: pdf DR.MGR University Mechanical Syllabus.pdf (699.2 KB, 271 views)


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