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Photoeffects in Intermetallic Compounds

Proceedings of the IRE, 1955
The intermetallic semiconductors are classified with respect to their crystal structure and to the place of the component elements in the periodic system. A survey is given of the properties of compounds with the zincblende and fluorite lattice. Photoeffects of individual members of these two groups are discussed. Such phenomena include photoconduction,
H. R. Frederikse, R. Blunt
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Prediction of intermetallic compounds

Russian Chemical Reviews, 2009
The problems of predicting not yet synthesized intermetallic compounds are discussed. It is noted that the use of classical physicochemical analysis in the study of multicomponent metallic systems is faced with the complexity of presenting multidimensional phase diagrams.
Gennady S Burkhanov, N N Kiselyova
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Hydrides of intermetallic compounds

Applied Physics, 1981
Aspects of the progress over the recent years on hydrides of intermetallic compounds are reviewed with emphasis on structure, stability, solid-state properties, catalysis, and kinetics. Some new routes to an understanding of hydride phenomenology are indicated.
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On the thermochemistry of intermetallic compounds

Thermochimica Acta, 1988
Rappel des methodes de determination des donnees thermochimiques. Analyse des facteurs affectant la stabilite thermodynamique. Presentation d'exemples concernant la formation des phases de Hume-Rothery dans les systemes AgGe et Ag-Sn et des phases de ...
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On intermetallic compound Bi2Zr

Solid State Communications, 1969
Abstract The method recently proposed by us (Ziet fur Metallkunde, 1969) has been utilised to produce intermetallic compound Bi2Zr. The interdiffusion coefficient has been estimated to be of the order of 10-9 cm2/sec at 600°K and this explains the reason why this intermetallic is formed so easily.
null Arunsingh, B. Dayal
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Superplasticity of Intermetallic Compounds

1992
Intermetallic compounds are superior to conventional metallic materials primarily because of their high-temperature strength parameters. The enhancement of these properties in the transition from metals to intermetallics is due to the change of the interatomic bonding as well as to a more complicated crystal structure.
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Intermetallic Compounds and Ferrites

2009
This chapter contains sections titled: MnBi References PtMnSb Heusler Alloy References Non-Garnet Ferrites for Magneto-Optical Recording Media References The Europium Chalcogenides References ]]>
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Applications of Intermetallic Compounds

MRS Bulletin, 1996
Just what is an intermetallic compound? An intermetallic compound is a true compound of two or more metals that has a distinctive structure in which the metallic constituents are in relatively fixed abundance ratios and are usually ordered on two or more sublattices, each with its own distinct population of atoms. Often substantial or complete disorder
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Alloys and Intermetallic Compounds

2023
Abstract In this chapter, the quantum-based interatomic potentials (QBIPs) developed in Chapters 3–5 for elemental metals are extended to the much larger domain of alloys and intermetallic compounds. The main focus here is on binary systems, but applications to multi-component systems are also considered.
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Fatigue of Intermetallic Compounds

MRS Proceedings, 1986
AbstractThe fatigue behavior of intermetallic compounds is reviewed. The effects of long range order, stoichiometry, test temperature and test environment on crack initiations high cycle fatigue lives and crack growth rates are emphasized. In the case of Ni3Al+B stoichiometry affects high cycle lives largely through the influence of aluminum on ...
N.S. Stoloff   +3 more
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