Materials Science and Technology: A Comprehensive TreatmentRobert W. Cahn, Peter Haasen, Edward J. Kramer Volume 3B: The second of two volumes in this series dealing with this topic. This handbook encompasses traditional topics in solid- state physics and chemistry as well as recent advances in materials research. From the Contents: Guillot: Magnetic Properties of Spinel Ferrite. Mizutani: Electronic Properties of Liquid, Amorphous and Quasicrystalline Alloys. Shiga: Invar Alloys. Hibst/Schwab: Magnetic Recording Materials. Schlapbach/Burger: Hydrogen in Pure Metals and Solid Solution. Yamaguchi/Akiba: Ternary Hydrides. Herzer/Boll: Soft Magnetic Metals and Alloys. Buschow: Permanent Magnet Materials. Cullen: Magnetostrictive Materials. Grundy: High-Density Magneto-Optical Recording Materials. |
Contents
Professor Uichiro Mizutani Dr Masayuki Shiga | 1 |
Hydrogen in Metals | 12 |
Contents | 80 |
Copyright | |
13 other sections not shown
Other editions - View all
Materials Science and Technology: A Comprehensive Treatment Robert Wolfgang Cahn,Peter Haasen,Edward J. Kramer No preview available - 1994 |
Common terms and phrases
amorphous alloys amorphous metals anisotropy annealing antiferromagnetic atoms band Buschow calculated cations cobalt coercivity compounds concentration constant crystalline Curie temperature curve decrease density diffraction disk do/dH effect electrical resistivity electron transport properties electronic structure energy Fe-Ni Fe-Pt Fermi ferrite ferromagnetic Figure function grain Guillot Hall coefficient hydride hydrogen increasing interaction Invar Invar alloys Invar-type ions iron garnets isotropy lattice layer Less-Common liquid low temperatures Magn magnetic field magnetic materials magnetic moment magnetic properties magnetostriction measured ment metal Mizutani molecular field Nakamura Néel netic neutron neutron diffraction observed obtained oxide paramagnetic parameters particles perature phase phous Phys quasicrystals range rare earth recording resistivity saturation saturation magnetization Shiga shown in Fig sp-electron specific heat spin spinel spontaneous magnetization sublattice substrate surface temperature dependence theory thermal expansion thin film tion transition tron ture valence band values volume