Curriclum of Matrials Engineering

Torsion: Torsion theory, Polar second moment of area, Shear stress and shear strain in shafts, Hook’s law, Torsional rigidity, hollow shafts,  thin-walled tubes, Composite shafts connections , Strain energy in torsion, Power transmitted by shafts, Combined stress systems,Internalforcesinbeams,beamdeflection.Thin Cylinders and Shells: Internal pressure, stresses, Thin rotating ring and spherical shell, pressure Vessels, Cylindrical vessel with hemispherical end, Effects of end plates and joints.

Thick cylinders:Longitudinal stress, Maximum shear stress, Compound cylinders, Shrinkage or interference allowance, Compound cylinder -different materials, Thick cylinder – internal pressure only, Comparison with thin cylinder theory. Complex Stresses:Stresses on oblique planes, Material subjected to pure shear, two mutually perpendicular direct stresses, combined stresses, Graphical solution – Mohr ‘s stress circle, Three-dimensional stresses -graphical representation.

Structure of Metals:Crystalline structure of metals Grains and grain boundaries, Nucleation and dentritic growth, Influence of solidification conditions on structure and properties. Defection cast metals.Thermal Equilibrium Diagrams:Cooling curves, solid solution alloys, factors affecting solid solubility, solid state diffusion, Thermal Equilibrium diagrams of a binary alloy showing complete solid solubility, effect of cooling rate, the inverse lever rule.Equilibrium diagram of a binary alloy showing in complete solubility in the solid state. Partial solubility in the solid state, intermediate phases. Allotropy of Iron.

Recommended Textbook(s):

1. Materials and Processes in Manufacturing by E.P Degarmo 2. Process and Materials of Manufacturing by Lindberg

Introduction to thermodynamics, Zeroeth law of thermodynamics, First law of thermodynamics, Thermodynamically reversible changes, Gas Expansion: maximum work, Heat capacity, Thermo-chemistry and its applications in metallurgy, Introduction to second law, Entropy, free energy and chemical equilibrium, some thermodynamic relationships involving entropy, some thermodynamic relationships involving free energy, Chemical equilibrium, controlled atmospheres, the equilibrium constant and the stability of compounds, Ellingham Diagrams, Introduction to solutions, ideal solutions: Raoults law, deviations from Raoults law, activities and activity coefficient, Henry’s law and Sievert’s law, Regular solutions, Free energy of mixing, The Gibbs-Duhem equation, Phase equilibrium, Thermodynamic phase equation, Phase rule, Phase diagrams, Unary Systems, Binary Systems, Ternary Systems.  

Basic concepts and units, current, voltage, power, and energy,Potential difference, low of resistance, units of resistivity, Effect of temperature on resistance, conductance and conductivity, Ohm’s law, Series cct., series elements, voltage sources in series, Voltage divider rule, Parallel cct., Parallel elements, current divider rule, Voltage source in parallel, short and open circuits, Kirchhoff’s current laws and voltage laws,  Series – parallel cct. Conversions current source in series and parallel

delta/star transform, Star/delta Transform,Methods of analysis of current sources, Mesh analysis method, nodal analysis method, superposition, Maximum power Transfer, Power Transfer Efficiency, Theories compositions Thévenin and Norton theorem, division of current in parallel circuits, Compensation Theorem, Capacitors

Programming of linear equation: Array operations, Solving linear equations .Programming in MATLAB: Introduction, M-File scripts, M-File functions, Anatomy of a M-File function, Input and output arguments, Output commands .Debugging M-File: Introduction, Debugging process. GUI (Graphical User Interface): Introduction, Getting started, How to create GUIs with MATLAB.

Basic Component of Casting, Advantages and Disadvantages of Casting Methods, Molding and molding sands, classification of foundry process, casting and its types, pattern and pattern making, core and core making, furnaces, crucibles, molding tools and foundry equipment, Metal Casting Design, Solidification of pure metals and alloys –shrinkage in cast metals, Casting Methods.

RecommendedBooks

1. FundamentalsofModernManufacturingbyGroover
2. Materials and Processes in Manufacturing by E.P Degarmo

Manufacturing Engineering and Technology by Kalpakjian

Engineering Metallurgy II

The Iron/ Carbon phase diagram: The effect of rapid cooling, the Eutectoid reaction, the Peritectic diagram, plain carbon steels, mechanical properties microstructures, classification of plain carbon steel and uses, relationship between carbon content, microstructures and mechanical properties. Effect of some elements (Manganese, Silicon, Sulphur, Phosphourst.Cast Iron: Microstructures and mechanical properties, white cast iron, gray cast iron, malleable cast iron, the production of malleable cast iron. Types of Alloy Steel.Non-Ferrous Metals: Copper and its Alloys, Aluminum  and its Alloys Recommended Textbook(s):

1. Materials and Processes in Manufacturing by E.P Degarmo 2. Process and Materials of Manufacturing by Lindberg

Hydrocarbons, aliphatics, ring, olifenes, acytelines, aromatics, Orbitals, Thermal cracking process, hydrogenation, reduction, Special reactions: oxidation and combustion, addition, substitution, nitration, Sulphonation, halogenation, polymerization, Halides, Alcohols and phenols, Ethers, Aldehydes and ketones, Carboxylic acids, esters, amino-acids, amides, Amines and some.

Introduction to polymer science: Chain conformations in polymers, Rubber elasticity Polymer solutions, Amorphous state and glass transition Crystalline state, Molecular structure of polymers, Polymer chain flexibility, Molecular motion and Glass, Rubber transition temperature , Free volume theory &Tg Crystallization, Mechanical tests,  Elastic Modulus, Creep and Stress relaxation, Polymer viscoelasticity and modeling

Superposition principle and WLF equations, Tensile properties, Stress concentration and fracture Hardness, Impact resistance, HDT and VICAT tests Dynamic Mechanical Properties

Introduction to Synthesis of Nanomaterials, Zero-Dimensional Nanostructures,Introduction to nanoparticles, Introduces scientific principles and theory relevant at the nanoscale dimension, One-Dimensional Nanostructures, Two-Dimensional Nanostructures , Three-Dimensional Nanostructures , Morphology of  nanomaterials, Special nanomaterials, Applications of nanotechnology in various fields,Characterization and characterization techniques of nanomaterials,  nanotubes, nanowires, and nanostructured thin films, emphasizing their synthesis, structural and property characterization, Applications of nanomaterials 

The basic knowledge on plasticity taught in mechanical metallurgy is extended to theory of metal forming.The contents of this course are:

State of stress, components of stress, symmetry of stress tensor, principle stresses, stress deviator, Von Mises, Tresca Yield criteria, comparison of yield criteria,Fundamentals of metal forming, Classification of forming process- Mechanics of metal working, Flow stress determination, Effect oftemperature, strain rate and metallurgical structure on metal working, Friction and lubrication, Deformation zone geometry, Workability, Residual stresses

Applications of metal forming processes and their analysis are studied indetail. The contents of this course are:

forging and rolling, Direct and indirect extrusion, variables affecting extrusion, deformation pattern, equipments, simple analysis of extrusion ,tube extrusionand production of seamless pipe and tube, Drawing of road, wires and tubes, deep drawing, bunching and blanking, bending, stretch forming, defects in formed part

This course teaches powder preparation, characterization, compaction and sintering. This knowledge is essential to understand powder metallurgy applications in aerospace, automobile and machining materials. The contents of this course are:

Powder manufacture and conditioning, characteristics and testing of metal powders, powder compaction, sintering, applications: Major applications in Aerospace, Nuclear and Automobile industries- Bearing Materials-types, Self lubrication and other types, Methods of production, Properties, Applications. Sintered Friction Materials-Clutches, Brake linings, Tool Materials- Cemented carbides, Oxide ceramics, Cermets- Dispersion strengthened materials

Phase Transformation: Basics of thermodynamics, kinetics and diffusion mechanisms. Diffusion Controlled Phase Transformation: Nucleation and growth – Types of nucleation – Concept of free energy during solidification – Thermodynamics of homogeneous nucleation. Diffusionless Transformations :Martensite transformation – Definition – characteristic features of Martensitic transformation in steels .Precipitation Reactions:structure and property during ageing, sequence of ageing, theories of precipitation hardening, effect of time, temperature and alloy compositions. Annealing: Cold working and hot working, Recovery – polygonization and dislocation movements inpolygonization, Recrystallisation – effect of time, temperature, strain and other variables, mechanism of nucleation and growth, Grain growth- Grain growth law, geometrical

The subject provides knowledge on various types of corrosion, their kinetics, testing and methods of protection as well as introduction to corrosion ology. The contents of this course are:

Corrosion , kind of Corrosion, Introduction to tribology, surface degradation, wear and corrosion, types of wear, adhesive,abrasive,Untraditional cutting methods, Electric spark cutting , Current passing cutting , Ultrasonic cutting, leaser cutting ,Chemical cutting , brose smoothing ,ethicizing Corrosion and corrosion damage , Electro chemical aspects, Polarization , Passivity, Environmental effect, Metallurgical aspects, Types of corrosion , general corrosion , Galvanic corrosion , intergranular Corrosion , Crevice Corrosion, filiform Corrosion ,Pitting ,selective leaching , Erosion Corrosion ,stress Corrosion , Corrosion fatigue ,hydrogen cracking , Calculation and emf. And PH, Hall-cell potential, calculation of activation polarizing , problem of polarization , Problem of passivity , Kinetics of Corrosion, Measurement of Corrosion ,rate, the role of the environment in the Corrosion , Corrosion behavior of some metals , Corrosion and scale resistance of engineering , Corrosion protection alloys , Selection of proper metal or alloys , protection by Coating,  Protection by alteration of environment, Protection by using the inhibitors, Cathodic protection , Anodic protection Corrosion control by design, Corrosion control by design ,Some corrosion problems encountered in practice

Analytical, experimental, or field work carried out in accordance with a preapproved project plan under the supervision of faculty member(s).

Continuation of previous work-Analytical, experimental, or field work carried out in accordance with a preapproved project plan under the supervision of facultymember(s).

Course Content: Introduction: Why Professional Ethics?, What Is A Profession?, Professions as Social Practices, Models Of Professionalism, The Business Model, The Professional Model, Types Of Ethics Or Morality, Responsibility in Engineering, Engineering Standards, Framing the Problems, Resolving Problems, The Social and Value Dimensionsof Technology, Trust and Reliability, Risk and Liability in Engineering, Engineers in Organizations, Engineers and the Environment, Cases should be presented for use in conjunction with materials (over the world & local)Text Book: Engineering Ethics, Concepts And Cases, Charles E. Harris, Michael S. Pritchard, and Michael J. Rabins, 2009, 2005 Wadsworth, Cengage Learning, USA ISBN-10: 0-495-50279-0

Important technology , Engineering materials , Design , Factors effect of  manufacturing method , classification ofManufacturing processes, their advantages and disadvantages,cutting tool materials,  Tools geometrical shapes , Variables cutting effect, mechanism of chip formation, heat generation and cutting tool temperature, cutting forces,tool wear, tool life, cutting fluids,Vertical cutting , inclined cutting.

RecommendedTextbook(s):

1. FundamentalsofModernManufacturing,Groover
2. Metal Cutting,E.M.Trent
3. Processes and Materials of Manufacture, Roy A. Lindberg
4. Metal Cutting Principles, Milton C.Shaw

Shaping and planning,Plain Turning, Taper Turning, Thread Cutting,  Estimation of machining time for the above turning processes, Drilling, Tapping, Reaming, milling, Surface Milling. Gear Cutting, Contour Milling, grinding, finishing operations, surface finish in machining

RecommendedTextbook(s):

1. Manufacturing Science by AmitabhaGhosh and Asokkumar Malik
2. Machine tools by R.N.Datta
3. Metal Cutting Principles by Milton C.Shaw

Engineering aspects of failure and failure analysis. Basic Concepts in Fracture Mechanics, Mechanics Of Fracture- Static Loading, Theories Of Failure, Fatigue, Basics of Fracture Toughness, Distorsionand Failure of Metals, Failure Analysis Of Creep Rupture Destructive Test Of Materials, Wear And Tear Strengthening Mechanisms.

RecommendedTextbook(s):

1. Hertz berg R W, “Deformation and fracture mechanics of Engineering Materials”Second Edition John Wiley sons inc, New York 1983.
2. Knott. J.F, “Fundamentals of Fracture Mechanics” Butterworth London, 1973.
3. KareHellan,“Introduction of Fracture Mechanics”, McGraw-Hill Book Company, 1985.
4. Metallurgy of FailureAnalysis, Das A.K., Tata McGrawHill, 1992

Fundamentals of composites, need for composites,Types of fibers used in Composite materials  and their chemical composition , Type of matrix used in Composite, Development of Composite fibers, Preparation of fibers and their performing , Reinforcing fibers, Properties of industrial , properties of Composite ,Non constructive evolution of Composites, Types of Composites , Hand layout process for Composites articles, Hand layout process for composites , Composites articles by injection mouldin, Non polymeric composites, Designing of articles from composite materials,

Criteria for selection of materials, application of statistics in materials selection, specification of steels,Composition, heat treatment, microstructure and properties of ferrous and non-ferrous alloys, ceramics andpolymers for light and heavy structural, corrosion resistant, magnetic, electrical and electronic applications,medical implants and prostheses application.     

RecommendedTextbook(s):

1. M.F. Ashby: Materials Selection in Mechanical Design, Butterworth Heinemann, 2005.
2. Pat L. Mangonon: The Principles of Materials Selection and Design, Prentice Hall International, Inc.1999.

Selection for fatigue, Selection for creep and temperature resistance, Selection for wear resistance, Selection for thermal properties, Selection for electrical properties, Selection formagnatic properties, Selection of processes, surface finish, machining of metals, cost aspects of process selection.

1. M.F. Ashby: Engineering Materials, 4th Edition, Elsevier, 2005.
2. M.F. Ashby: Materials Selection in Mechanical Design, Butterworth Heinemann, 2005.
3. ASM Publication, Vol.20: Materials Selection and Design, ASM, 1997.
4. Pat L. Mangonon: The Principles of Materials Selection and Design, Prentice Hall International, Inc.1999

    

Introduction , electric field , electric field strength , electric flux density ,Polarization mechanisms, electronic polarization , Ionic polarization , Orientation polarization, space charge polarization, total polarization of dielectric material , the internal field in solid and liquid the polarization catastrophe , capacitors, Effect of frequency on the dielectric constant , effect of temperature on polarization and dielectric constant . Important points for the selection of a dielectric materials ferroelectric materials , hysteresis curve , Electrostriction , piezoelectricity , Important requirements of good insulating materials ,  Dielectric loses , significance of the loss tangent , depending on of the loss tangent on temperature , and frequency , Dipolar relaxation frequency and temperature depending of the dielectric constant of polar dielectric properties of polymeric system , Ionic conductivity in insulator , magnetic permeability , magnetic susceptibility , Classification of magnetic in magnetic materials, B-H curve fore diamagnetic paramagnetic , Ferromagnetic materials Classification of magnetic materials(hard , and soft magnetic materials), Reflectors , Absorbers, Resonators, Sound insulation , airborne and impact insulation , Methods of  improving airborne sound insulation of building element, Sound insulation, airborne and impact insulation , Methods of improving airborne sound insulation of building element , Vibration , Thermal conductivity, coefficient of thermal conductivity , Equivalent thickness of various walls , Compound wall, Thermal resistance , Properties of thermal insulation materials .