Material Science and Metallurgy:Material Science and Metallurgy is presented in a user-friendly language and the diagrams give a clear view and concept. Solved problems, multiple choice questions and review questions are also integral part of the book. The contents of the book ar |
Contents
| 1 | |
Atomic Bonding and Crystal Structure | 17 |
Imperfections in Solids | 60 |
Plastic Deformation in Crystalline Materials | 87 |
Mechanical Properties | 108 |
Diffusion | 152 |
Phase Diagrams | 178 |
Phase Transformations | 211 |
Composite Materials | 329 |
Wear of Materials | 353 |
Corrosion and Oxidation | 378 |
Thermal Properties | 404 |
Electrical Conductivity and Insulating Properties | 427 |
Semiconductors | 450 |
Dielectric Properties | 473 |
Magnetic Properties | 488 |
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Common terms and phrases
abrasion alloying elements alloys aluminium annealing applications atoms austenite bainite band band gap bonds brittle carbide carburizing cast iron cementite cent ceramics chemical chromium coefficient composition concentration constant cooling copper corrosion covalent bonds crack creep crystal structure curve decreases density dielectric diffusion dipoles ductility electric field electrons energy eutectic eutectoid example extrinsic semiconductors fatigue ferrite fibres fracture friction glass grain boundaries graphite hardness heat hydrogen impurity increase insulators ions laser lattice linear liquid load lubrication magnetic field martensite matrix maximum melting point metal microstructure molecules nickel nitride orbit oxide particles pearlite plastic deformation polymerization polymers produced quenching reaction resistance room temperature semiconductors shear stress shown in Figure silicon slip plane solid solution specimen stainless steels strength surface Table tensile transformation unit cell valence valence band wear yield point Young’s modulus zinc α α γ γ