Metastable, Mechanically Alloyed and Nanocrystalline Materials: ISMANAM-2000 : Proceedings of the International Symposium on Metastable, Mechanically Alloyed and Nanocrystalline Materials St. Catherine's College, Oxford, 9-14th July, 2000
Peter Schumacher, Paul Warren, Brian Cantor
Trans Tech Publications Limited, Jan 1, 2001 - Technology & Engineering - 662 pages
Metastable, mechanically alloyed and nanocrystalline materials belong to a group of materials having very promisiing characteristics. In this book, major advances are reported in the field of bulk metallic glasses and bulk nanocrystalline materials; as prepared using devitrification or mechanical alloying and compaction. Other important issues include the understanding of processing kinetics leading to applications in various fields; in particular, the mechanical alloying of steels and the exploitation of the magnetic properties of mechanically alloyed materials.
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InSitu Observation of Phase Transformations of QuasiCrystalline Forming
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Preparation Microstructure and Mechanical Properties of Carbon Fiber
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2001 Trans Tech a-Fe activation energy amorphous alloys amorphous matrix amorphous phase analysis annealing temperature as-milled atoms ball milling behaviour bulk metallic glass cementite composition cooling corresponding crystalline phase crystallization curves decrease deformation differential scanning calorimetry diffraction patterns diffusion disordered distribution electron microscopy enthalpy experimental ferromagnetic Figure formation glass forming glass transition glass transition temperature grain heating rate hydride hydrogen hyperfine icosahedral phase increase Inoue interface intermetallic investigated isothermal Joule heating Journal of Metastable K/min Keywords kinetics lattice parameter magnetic properties measurements mechanical alloying melt-spun melting metallic glass Metastable Metastable and Nanocrystalline microstructure milling intensity mixture Nanocrystalline Materials nanostructure nucleation observed obtained oxidation particles phase transformation Phys precipitates quasicrystalline reaction room temperature samples scanning shown in Fig shows sintered solid solution structure studied superparamagnetic surface thermal Trans Tech Publications transmission electron microscopy values volume fraction X-ray diffraction XRD patterns