Glass formation, Curie temperature and crystallization behavior of the Pr-Fe-B metallic glass system
Identifieur interne : 002A16 ( Istex/Curation ); précédent : 002A15; suivant : 002A17Glass formation, Curie temperature and crystallization behavior of the Pr-Fe-B metallic glass system
Auteurs : Lawrence T. Kabacoff [États-Unis]Source :
- Journal of The Less-Common Metals [ 0022-5088 ] ; 1983.
English descriptors
- KwdEn :
- Additional structures, Amorphous layers, Amorphous state, Apparent weight, April elsevier, Argon atmosphere, Arizona state university, Basic features, Boron concentration, Canting angle, Consistent interpretation, Conventional voltage modulation techniques, Crystal series, Crystalline phase, Crystallization behavior, Crystallization temperature, Crystallization temperatures, Curie, Curie temperature, Curie temperatures, Date show, Different valence, Differential scanning calorimetry, Dynamic resistivities, Earth research conference, Elastic strains, Electron tunnelling spectroscopy, Excellent ability, Florida state university, Gand reflections, Glass formation, Glass stability, Greedan institute, Heating rate, Ionic radii, Ionic radius, Ka3acgff navoe surface weapons center, Large deviations, Lotnikbw warsaw, Lower boron concentrations, Magnetic force, Magnetic moment, Magnetic structures, Materials research, Mcmaster university, Metallic glass system, Negative weight, Netherlands journal, Normal valent states, Other models, Permanent magnet materials, Phase separation, Powder neutron diffraction, Praseodymium content, Present address, Quartz crucibles, Rapid solidification, Rare earth, Rautuszkiewicz institute, Recent results, Recrystallized product, Repulsive interaction, Repulsive interactions, Several compositions, Small amount, Small amounts, Solid state, Solid state chem, Stallization behavior, Symmetry considerations, Thin films, Tunnelling structure, Unknown phase, Valence change, Various compositions, Xray diffraction.
- Teeft :
- Additional structures, Amorphous layers, Amorphous state, Apparent weight, April elsevier, Argon atmosphere, Arizona state university, Basic features, Boron concentration, Canting angle, Consistent interpretation, Conventional voltage modulation techniques, Crystal series, Crystalline phase, Crystallization behavior, Crystallization temperature, Crystallization temperatures, Curie, Curie temperature, Curie temperatures, Date show, Different valence, Differential scanning calorimetry, Dynamic resistivities, Earth research conference, Elastic strains, Electron tunnelling spectroscopy, Excellent ability, Florida state university, Gand reflections, Glass formation, Glass stability, Greedan institute, Heating rate, Ionic radii, Ionic radius, Ka3acgff navoe surface weapons center, Large deviations, Lotnikbw warsaw, Lower boron concentrations, Magnetic force, Magnetic moment, Magnetic structures, Materials research, Mcmaster university, Metallic glass system, Negative weight, Netherlands journal, Normal valent states, Other models, Permanent magnet materials, Phase separation, Powder neutron diffraction, Praseodymium content, Present address, Quartz crucibles, Rapid solidification, Rare earth, Rautuszkiewicz institute, Recent results, Recrystallized product, Repulsive interaction, Repulsive interactions, Several compositions, Small amount, Small amounts, Solid state, Solid state chem, Stallization behavior, Symmetry considerations, Thin films, Tunnelling structure, Unknown phase, Valence change, Various compositions, Xray diffraction.
Url:
DOI: 10.1016/0022-5088(83)90020-6
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temperatures</term><term>Curie</term><term>Curie temperature</term><term>Curie temperatures</term><term>Date show</term><term>Different valence</term><term>Differential scanning calorimetry</term><term>Dynamic resistivities</term><term>Earth research conference</term><term>Elastic strains</term><term>Electron tunnelling spectroscopy</term><term>Excellent ability</term><term>Florida state university</term><term>Gand reflections</term><term>Glass formation</term><term>Glass stability</term><term>Greedan institute</term><term>Heating rate</term><term>Ionic radii</term><term>Ionic radius</term><term>Ka3acgff navoe surface weapons center</term><term>Large deviations</term><term>Lotnikbw warsaw</term><term>Lower boron concentrations</term><term>Magnetic force</term><term>Magnetic moment</term><term>Magnetic structures</term><term>Materials research</term><term>Mcmaster university</term><term>Metallic glass system</term><term>Negative weight</term><term>Netherlands journal</term><term>Normal valent states</term><term>Other models</term><term>Permanent magnet materials</term><term>Phase separation</term><term>Powder neutron diffraction</term><term>Praseodymium content</term><term>Present address</term><term>Quartz crucibles</term><term>Rapid solidification</term><term>Rare earth</term><term>Rautuszkiewicz institute</term><term>Recent results</term><term>Recrystallized product</term><term>Repulsive interaction</term><term>Repulsive interactions</term><term>Several compositions</term><term>Small amount</term><term>Small amounts</term><term>Solid state</term><term>Solid state chem</term><term>Stallization behavior</term><term>Symmetry considerations</term><term>Thin films</term><term>Tunnelling structure</term><term>Unknown phase</term><term>Valence change</term><term>Various compositions</term><term>Xray diffraction</term></keywords></textClass><langUsage><language ident="en">en</language></langUsage></profileDesc></teiHeader></TEI></record>Pour manipuler ce document sous 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