“Metallurgical & Materials Engineering Notes will be updating very soon and currently under construction.”
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Every metallurgical engineer should Read to know Some Basic Concepts which is Backbone of Metallurgy World that is IRON& STEELS MAKING, isn’t it ..?
Iron And Steel Making pPT’s: –Ion-and-Steel-Making-PPT
So then why you’re waiting to search notes here and there .kindly follow this website forever and ever .one of the best collections materials about Iron and steel making.
1.Steel making PDF Notes by Prof.Deepak Mazumdar,Prof.S.C.Koria,Department of Metallurgical & Materials Engineering,IIT Kanpur (NPTEL):
Lecture 1Lecture 2Lecture 3Lecture 4Lecture 5Lecture 6Lecture 7Lecture 8Lecture 9Lecture 10Lecture 11Lecture 12Lecture 13Lecture 14Lecture 15Lecture 16Lecture 17Lecture 18Lecture 19Lecture 20Lecture 21Lecture 22Lecture 23Lecture 24Lecture 25Lecture 26Lecture 27Lecture 28Lecture 29Lecture 30Lecture 31Lecture 32Lecture 33Lecture 34Lecture 35Lecture 36Lecture 37Lecture 38Lecture 39Lecture 40Lecture 41Lecture 42
“SEMESTER WISE METALLURGICAL ENGINEER NOTES “
1.BASCIS CONCEPTS ABOUT METALLURGCIAL ENGINEERS.
2.SECOND SEMESTER OF UNDER-GRADAUTES METALLURGICAL ENGINEER.
3.THIRD SEMESTER OF UNDER-GRADAUTES METALLURGICAL ENGINEER .
4.FOURTH SEMESTER OF UNDER-GRADAUTES METALLURGICAL ENGINEER .
5.FIRTH SEMESTER OF UNDER-GRADAUTES METALLURGICAL ENGINEER .
6.SIXSEMESTER OF UNDER-GRADAUTES METALLURGICAL ENGINEER .
7.SEVENTH SEMESTER OF UNDER-GRADAUTES METALLURGICAL ENGINEER .
8.EIGHT SEMESTER OF UNDER-GRADAUTES METALLURGICAL ENGINEER.
SUCH A GREAT CONTRIBUTION BY SHASTI RAJA.V (ANNA UNIVERSITY)
1.Fundamentals of Ceramics-Barsoum.
2.Geiger transport phenomena in metallurgy.
3.Transport and chemical rate phenomena
4.Materials Science By KAKANI.
5.Physical Metallurgy By V.Raghavan.
6.Chemical Thermodynamics of Materials.
7.MATERIALS CHARACTERIZATION Introduction to Microscopic and Spectroscopic Methods by Yang Leng
8.X Ray Diffraction Crystallography Introduction Examples and Solved Problems By Springer
9.SCANNING ELECTRON MICROSCOPY By IIT Kanpur
10. Heat Transfer By (J.P. Holman).
11.Principle and Application of Thermal analysis.
12.KraftMakher, Equilibrium Point Defects.
13.Characterization techniques for Nanoparticles.Useful to the people working in Nanotechnology. // Part 1-Technical Approaches // 2-X-ray // 3-TEM and spectroscopy of Nanoparticles // 4-STEM of Nanoparticles // 5-Scanning Probe Microscopy of Nanoparticles // 6-Electrical and Electrochemical Analysis of Nanophase // 7-Optical Spectroscopy of nanophase // 8-NMR Part II-Nanocrystal systemsPart 1-Technical Approaches // 10-Nanomagnetism // 11-Metal-oxide and -sulfide // 12-Electron microscopy // Front cover and Index
TOPIC-WISE COMPLETELY MATERIALS :
Materials Science and Engineering:
Metals – Definition, history and examples. Ceramics- Definition, history and examples. Plastics – Definition, history and examples. Electronic Materials – Definition, history, and examples. Composites – Definition, history and examples. Concrete :- http://academic.uprm.edu/pcaceres/Courses/MatEng/MSE1-1.pdf
Mechanical Properties. Types. Basic Definitions. Tensile Testing. Engineering Stress and Strain. True Stress and Strain. Strain Hardening Parameter. Instability on Tension. Fracture Behavior – Ductile and Brittle. Stress-Strain Behavior of Ceramics. Torsion Test. Impact Test. Ductile-Brittle Transition Temperature. Hardness. Hardness Types. Correlation between hardness and tensile strength. Fatigue Test. Creep Test.
Atomic Structure. Electronic Structure. Electronegativity. Periodic Table. Atomic size. Ionic Size. Ionic Bond – Properties. Covalent Bond – Properties. Polar Covalent. Carbon Hybridization. Metallic Bond – Properties. Secondary Bonding. Mixed Bonds.
Crystal Structure. Lattice. Unit Cell. Crystal Systems. Bravais Lattices. Cubic Cells. Coordination Number. Atomic Packing Factor. Hexagonal Close Packed Cells. Atomic Position in Cubic Cells. Directions. Miller Indices. Planes. Packing of Atoms. Density. Polymorphism – Allotropy. X-Ray Diffraction.
Defects in Solids. Vacancies. Solid Solution – Substitutional – Interstitial. Interstitial Sites. Dislocations. Interfacial Defects. Grain size.
Solidification. Driving Force. Nucleation – Homogeneous – Heterogeneous. Inoculation. Casting – Columnar Zone. Diffusion. Steady State Diffusion. Diffusivity. Non-Steady-State Diffusion – Carburization.
Deformation in single crystals. Slip systems. Resolved shear stress. Plastic deformation in polycrystals. Strengthening Mechanisms. Strain hardening. Cold work. Recovery. Recrystallization. Grain growth. Solid solution strengthening. Strengthening by Grain size reduction. Dispersion strengthening. Precipitation hardening.
Phase Diagrams. Pure substances. Gibbs Phase rule. Solubility limit. Binary isomorphous system. Interpretation of phase diagrams. Equilibrium cooling. Non-equilibrium cooling. Invariant points in binary systems. Eutectic – System and Microstructure. Microconstituents. Intermediate phases. Intermetallic compounds. Iron-Iron Carbide Diagram. Eutectoid steel – Pearlite. Hypo and hypereutectoid steel.Ferrous Alloys. Low Alloy steels. High Alloy Steels. Austenitic Steel. Stainless Steels. Cast Irons – Grey – White – Nodular – Malleable. Non-Ferrous Alloys. Copper and Copper Alloys – Bronzes – Brasses. Copper-Nickel. Aluminum Alloys – Wrought – Cast. Magnesium Alloys. Titanium Alloys. Others.
Heat Treatment – Basic Concepts. S- Shape Transformation Curve. Isothermal Transformation. TTT Diagrams, Pearlite Formation. Bainite Formation. Martensite Formation. Continuous Cooling Transformation. Common Industrial Heat Treatments. Annealing. Normalizing. Spheroidizing. Quench & Temper. Austempering. Martempering. Hardenability.
Ceramic Materials. Structure and Properties. Silicate Ceramics and Carbon. Imperfections in Ceramics. Ceramic Phase Diagrams.polymers. Basic building blocks. Hydrocarbon molecules. Chemistry and Structure of Polymer Molecules. Common polymers. Isomers. Thermoplastic thermosetting. Polymer crystallinity. Mechanical behavior of polymers. Viscoelasticity. Forming techniques for plastics. Composites Materials: Particle Reinforced Composites. Fiber-Reinforced Composites. Polymer Matrix Composites. Metal-Matrix Composites. Structural Composites.
Corrosion. Mechanism of deterioration. Oxidation. Scale type. Electrochemical corrosion. Electrode Potential. Standard Electromotive Force (EMF) series. Galvanic series. Forms of Corrosion.