Engineering Materials and MetallurgyThis treatise on "Engineering Materials and Metallurgy" contains a comprehensive treatment of the subject matter in a simple, lucid and direct language and envelopes a large number of figures which reinforce the text in the most efficient and effective way. |
Contents
1 | |
24 | |
Chapter 2 Heat Treatment | 55 |
Chapter 3 Ferrous and Nonferrous Metals | 96 |
Chapter 4 Nonmetallic Materials | 151 |
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Common terms and phrases
acid allotropy alloy alloying elements aluminium annealing applied atoms austenite bainite bond brass Brinell hardness brittle bronze carbide carbon steel cast iron cement cementite ceramic materials chemical chromium components composition compressive concrete cooling copper corrosion crack creep curve defects diameter dielectric ductility elastic electrical electrons energy equilibrium diagram eutectic fatigue ferrite fibres fracture furnace glass GN/m² grain hardening heat treatment high temperature impurities increases insulation known liquid load machine magnesium magnetic manganese manufacture martensite maximum mechanical properties melting point metal mild steel MN/m² modulus molten moulding nickel nitriding obtained oxide pearlite percent percentage phase plastic deformation polymerisation polymers produced quenching resistance retained austenite room temperature salt bath screw dislocation shear stress sheets silica silicon solid solution soluble specimen steel containing strain surface tempering tensile strength thermal thermoplastic thermosetting toughness transformation tungsten twinning unit cell upto wrought iron Young's modulus zinc