The Nature and Properties of Engineering Materials |
Contents
ATOMS AND MOLECULES | 1 |
Nonferrous Metals | 8 |
Interatomic and Intermolecular Forces | 11 |
Copyright | |
49 other sections not shown
Other editions - View all
Common terms and phrases
adhesive alloys alumina aluminum amorphous annealing atoms austenite band bond brittle Calculate carbon cause cement cementite ceramic changes chemical chromium coefficient composition compounds compressive concentration concrete conduction band constant cooling copper covalent creep crosslinking crystal crystalline curve decreases density diagram dielectric diffusion dislocation dispersed ductile effect elastic electrical electrons Equation equilibrium eutectic ferrite fibers FIGURE film flow forces formation fracture friction glass grain boundaries hardening heat impurities increases interface ionic ions lattice layer liquid magnetic field martensite material matrix mechanical melting point metal microstructure modulus molecular weight molecules mullite occurs oxide particles pearlite phase plastic deformation polarization polymer polymerization pores porosity powder pressure produce properties radiation ratio reaction refractory resins resistance result room temperature semiconductor shear rate shear stress silica silicon sintering steel strain strength structure surface tension tensile tensile stress thermal conductivity tion usually vacancies valence valence band viscosity volume welding