Materials science and engineering: an introduction
The latest edition of this bestselling textbook treats the important properties of three primary types of material--metals, ceramics, polymers--as well as composites. Describes the relationships that exist between the structural elements of these materials and their characteristics. Emphasizes mechanical behavior and failure along with techniques used to improve the mechanical and failure properties in terms of alteration of structural elements. Individual chapters discuss each of the corrosion, electrical, thermal, magnetic, and optical properties plus economic, environmental, and societal issues. Features a design component which includes design examples, case studies, and design type problems and questions.
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Atomic Structure and Interatomic Bonding
Atomic Bommnc i Solids
The Structure of Crystalline Solids
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Materials Science and Engineering: An Introduction
William D. Callister,David G. Rethwisch
No preview available - 2013
alloy aluminum annealed applied atoms austenite bainite band gap behavior bonding brittle carbon cementite ceramic ceramic materials chain characteristics chemical components composition Compute concentration conductivity cooling copper corrosion crack crystal structure crystalline curve density diameter dielectric diffusion dipole dislocation ductile electrical electron elements energy Engineering Equation eutectic eutectoid example fatigue ferrite fiber fraction fracture Furthermore glass grain hardening heat treatment hydrogen impurity ionic ions iron John Wiley liquid load magnetic magnitude martensite Materials Park matrix melting temperature metal alloys microstructure modulus of elasticity molecular weight molecules normally oxide parameter particles pearlite phase diagram plane plastic deformation polarization polymeric polymers quenched reaction region relatively Reprinted by permission resistance result room temperature Schematic Section semiconductors shear shown in Figure silicon solid solution specimen steel strain stress stress-strain surface Table techniques tensile strength termed thermal tion transformation unit cell valence Wiley & Sons yield strength