The Hydrides of the Rare-Earth Metals

Mikheeva, V.I.; Kost, M.E.

doi:10.1070/rc1960v029n01abeh001216

Cited by 17 publications

(6 citation statements)

References 14 publications

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“…Wide ranges of hydrogen solubility are observed in high-temperature modifications of these metals ({3-phase).In the titaniumhydrogen system, a y-phase based on the hydride TiH2 has been found, as well as the hydrides ZrH 2 , ZrH, Zr4H, and HfH2 in the corresponding systems [250,251,280,2811. Group VIa metals also exhibit a considerable sorption capacity for hydrogen, although to a lesser degree than group IVa metals. The process of hydrogen absorption by these metals is activated by preliminary heating [253]. The absorption of hydrogen by vanadium is proportional to the square root of the value of the hydrogen pressure [254].…”

Section: Interaction With Hydrogenmentioning

confidence: 99%

“…Langmuir [262] found appreciable absorption of hydrogen by heating a tungsten wire in a hydrogen atmosphere at a temperature above 1300°C, which is explained in [253] as being due to the formation of tungsten hydride by an endothermic reaction. V. I. Mikheeva [253] cites results of Dillon [263] on the formation of the compound WH 2 •…”

Section: Interaction With Hydrogenmentioning

confidence: 99%

“…V. I. Mikheeva has suggested the possibility of producing rhenium hydrides by successful synthesis of complex rhenium compounds containing hydride hydrogen [253].…”

Section: Interaction With Hydrogenmentioning

confidence: 99%

“…Of these metals, the maximum capacity for absorbing hydrogen is found in palladium and its alloys, and is utilized in technology. Among the heavy platinum metals (osmium, iridium, platinum), maximum hydrogen solubility is found in iridium [253]. The palladium -hydrogen system has been studied most completely.…”

Section: Interaction With Hydrogenmentioning

confidence: 99%

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Physical Metallurgy of Refractory Metals and Alloys

Savitskii¹,

Burkhanov²

1995

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All rights reservedNo part of this publication may be reproduced in any form without written permission from the publisher PREFACE TO THE AMERICAN EDITIONThe principal reasons which induced the authors to write this book and the features of the book are set forth in the preface to the Russian edition.That section of the science of metals which in Russian is called "metallovedenie" or the "physical chemistry of metals" is generally referred to in scientific and technical literature published in the English language by the term "physical metallurgy." These concepts are much broader than the term" metallography," used in the scientific and technical literature of various countries, and applied solely to research on the interrelationships of the structure and properties of metals and alloys.Each science must have its own subject and its own method of research. Certainly, all specialists will agree that metals and alloys, including their solid solutions, mechanical mixtures, and metallic compounds, form the subject of "physical metallurgy" or "physical chemistry of metals." The aim of this science. is to produce a theory and to elucidate the experimental relationships which ought finally to make it possible to calculate quantitatively alloys Of given properties for any working conditions and parameters.With regard to the methods of research on metals and alloys, we assume that "physical metallurgy" may properly employ any theoretical and experimental methods which will help to solve its basic problems. The experience of the last few decades has shown that among the experimental methods a leading position is occupied by the physicochemical analysis of metal systems developed by N. S. Kurnakov, that is to say, the systematic investigation of the phYSical properties of alloys as a function of he variation of their chemical composition and phase composition. This method has also been employed for investigating the interrelationship of the structure and properties of alloys at different temperatures and pressures (see E. M. Savitsky, The Influence of Temperature on the Mechanical Properties of Metals and Alloys, Stanford University Press, 1961). The "physical chemistry of metals" makes extensive use of physicochemical analysis. The science of metals and alloys absorbs all the achievements of the exact fundamental sciences, primarily physics and chemistry. It may even be said more precisely:The "physical chemistry of metals" or "physical metallurgy" is the synthesis of the physics of metals and the chemistry of metal alloys. The distribution and energy of electrons is the basic factor determining the crystal structure and all the properties of metals and alloys. The main problems which have to be solved in the framework of these sciences are the following: the electronic structure and nature of the interatomic bond in metal crystals, solid solutions of metals and metallic compounds, the development of methods for the quantitative measurement of the value of the interatomic forces with variation in the fundamental parameters...

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Section: Interaction With Hydrogenmentioning

confidence: 99%

Section: Interaction With Hydrogenmentioning

confidence: 99%

“…V. I. Mikheeva has suggested the possibility of producing rhenium hydrides by successful synthesis of complex rhenium compounds containing hydride hydrogen [253].…”

Section: Interaction With Hydrogenmentioning

confidence: 99%

Section: Interaction With Hydrogenmentioning

confidence: 99%

See 2 more Smart Citations

Physical Metallurgy of Refractory Metals and Alloys

Savitskii¹,

Burkhanov²

1995

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“…Recently Mikheeva and Kost, 2 Mikheeva, 3 Libowitz, 4 and Bos and Gayer 5 have surveyed the rare-earth hydrides. How- ever, since the rare-earth metals are somewhat difficult to separate from one another, much of the early work was done on misch metal, a mixture of the rare-earth metals in varying amounts.…”

Section: -1 G E N E R a L C H A R A C T E R I S T I C S O F T H E R mentioning

confidence: 99%