Science of engineering materials
This introductory book covers both conventional and newly emerging materials for engineering applications. It describes the properties of materials desirable for specific applications and outlines some of the useful methods of synthesis. Throughout, the correlation between the structures and properties of materials are highlighted. Areas of applications covered include semiconductors, magnetic materials, superconductors, opto-electronic materials, dielectric materials, amorphous materials, nuclear engineering, and space engineering. Includes discussion of modern techniques for materials studies.
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Chemical Equilibria Reaction Rates and Diffusion
16 other sections not shown
alloys amorphous anisotropy applications atoms bond Brillouin zone Calculate called carbon cell charge carriers chemical coefficient components concentration conduction band consider constant corrosion covalent bond crystalline Curie temperature curve density depends dielectric dielectric constant diffraction diffusion dipole direction discussed dislocations domain effect electric field electrical resistivity elements energy gap equation equilibrium experimental Fermi ferrite ferromagnetic fission flux free energy frequency fuel function given in Table Hence holes hydrogen impurity increase ionic ionization ions lattice lattice constant liquid magnetic field mechanical metal molecular molecules neutron nuclear obtained orbital p-n junction particles phase photon piezoelectric plane polarizability polarization polymers potential properties quantum radiation reaction reactors region resistivity resonance room temperature semiconductor shown in Fig solid solution space specific heat spin strength stress superconducting surface technique thermal tion valence band vector velocity voltage wave wave vector x-ray zero