Engineering materials and their applications
This edition of the classic text/reference book has been updated and revised to provide balanced coverage of metals, ceramics, polymers and composites. The first five chapters assess the different structures of metals, ceramics and polymers and how stress and temperature affect them. Demonstrates how to optimize a material's structure by using equilibrium data (phase diagrams) and nonequilibrium conditions, especially precipitation hardening. Discusses the structures, characteristics and applications of the important materials in each field. Considers topics common to all materials—corrosion and oxidation, failure analysis, processing of electrical and magnetic materials, materials selection and specification. Contains special chapters on advanced and large volume engineering materials plus abundant examples and problems.
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A General View of the Problems
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0.8 percent carbon alloys aluminum annealing anode atoms austenite bainite bonds brittle Calculate cast iron cathode CD CD ceramics Chap chromium CM CM cold-worked composition cooling copper corrosion covalent covalent bonds crystal crystalline curve density diffusion discussed ductile iron effect elastic electrical electron holes electrons elements elongation energy engineering eutectoid example Fe2+ ferrite fibers field fracture glass grain graphite hardening hardness heat treatment hydrogen important ionic ions liquid load magnesium magnetic martensite material matrix melt metal microstructure modulus mold molecules nickel obtain oxidation oxygen pearlite percent silicon percentage phase diagram plane plastic polarization polymer polymerization precipitate produced properties quenched reaction refractory resistance semiconductor shown in Fig silica slip sodium solid solution specimen strain stress structure surface Table temper tensile strength thermoplastic thermosetting transformation two-phase unit cell valence volume yield strength zinc