Interstitial Alloys

Interstitial Alloys
Author: H. J. Goldschmidt
Publisher: Elsevier
Total Pages: 643
Release: 2016-01-22
Genre: Technology & Engineering
ISBN: 1483225739
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Interstitial Alloys covers the significant progress in the development and understanding of the principles and applications of interstitial alloys. Interstitial alloy refers to the existence of a pure metal lattice, which the metal-metal atom bond remains the dominant one, and the non-metal atoms are sufficiently small to be accommodated within the metal lattice without, or with only a limited degree of, distortion from metal-type symmetry. This book contains 10 chapters and begins with a brief introduction to the basic principles of interstitial alloys. The next two chapters describe the physical properties of these alloys, along with their behavior in solid solutions. The remaining chapters deal with a specific interstitial alloy, its structure, physico-chemical properties, preparation, and application. This work specifically considers carbide, nitride, boride, silicide, oxide, hydride, and mixed interstitial alloys. This book will be of value to chemists and physicists.

Interstitial Alloys

Interstitial Alloys
Author: Harvey J. Goldschmid
Publisher:
Total Pages: 644
Release: 2014-09-01
Genre:
ISBN: 9781489958815
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Interstitial Intermetallic Alloys

Interstitial Intermetallic Alloys
Author: F. Grandjean
Publisher: Springer
Total Pages: 728
Release: 2012-11-05
Genre: Science
ISBN: 9789401041300
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It is well known that the density of molecular hydrogen can be increased by compression and/or cooling, the ultimate limit in density being that of liquid hydrogen. It is less well known that hydrogen densities of twice that of liquid hydrogen can be obtained by intercalating hydrogen gas into metals. The explanation of this unusual paradox is that the absorption of molecular hydrogen, which in TiFe and LaNis is reversible and occurs at ambient temperature and pressure, involves the formation of hydrogen atoms at the surface of a metal. The adsorbed hydrogen atom then donates its electron to the metal conduction band and migrates into the metal as the much smaller proton. These protons are easily accomodated in interstitial sites in the metal lattice, and the resulting metal hydrides can be thought of as compounds formed by the reaction of hydrogen with metals, alloys, and intermetallic compounds. The practical applications of metal hydrides span a wide range of technologies, a range which may be subdivided on the basis of the hydride property on which the application is based. The capacity of the metal hydrides for hydrogen absorption is the basis for batteries as well as for hydrogen storage, gettering, and purification. The temperature-pressure characteristics of metal hydrides are the basis for hydrogen compressors, sensors, and actuators. The latent heat of the hydride formation is the basis for heat storage, heat pumps, and refrigerators.

Interstitial Intermetallic Alloys

Interstitial Intermetallic Alloys
Author: F. Grandjean
Publisher: Springer Science & Business Media
Total Pages: 724
Release: 2012-12-06
Genre: Science
ISBN: 9401102953
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It is well known that the density of molecular hydrogen can be increased by compression and/or cooling, the ultimate limit in density being that of liquid hydrogen. It is less well known that hydrogen densities of twice that of liquid hydrogen can be obtained by intercalating hydrogen gas into metals. The explanation of this unusual paradox is that the absorption of molecular hydrogen, which in TiFe and LaNis is reversible and occurs at ambient temperature and pressure, involves the formation of hydrogen atoms at the surface of a metal. The adsorbed hydrogen atom then donates its electron to the metal conduction band and migrates into the metal as the much smaller proton. These protons are easily accomodated in interstitial sites in the metal lattice, and the resulting metal hydrides can be thought of as compounds formed by the reaction of hydrogen with metals, alloys, and intermetallic compounds. The practical applications of metal hydrides span a wide range of technologies, a range which may be subdivided on the basis of the hydride property on which the application is based. The capacity of the metal hydrides for hydrogen absorption is the basis for batteries as well as for hydrogen storage, gettering, and purification. The temperature-pressure characteristics of metal hydrides are the basis for hydrogen compressors, sensors, and actuators. The latent heat of the hydride formation is the basis for heat storage, heat pumps, and refrigerators.

Structure of Materials

Structure of Materials
Author: Marc De Graef
Publisher: Cambridge University Press
Total Pages: 799
Release: 2007-08-30
Genre: Science
ISBN: 0521651514
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Highly illustrated, self-contained textbook covering the fundamentals of crystallography, symmetry and diffraction, providing a full appreciation of material structure for advanced undergraduate or graduate courses within materials science and engineering. Includes over 430 illustrations and 400 homework problems. Solutions, data files for crystal structures, and appendices, available from www.cambridge.org/9780521651516.

High Interstitial Stainless Austenitic Steels

High Interstitial Stainless Austenitic Steels
Author: Hans Berns
Publisher: Springer Science & Business Media
Total Pages: 169
Release: 2012-11-08
Genre: Technology & Engineering
ISBN: 3642337015
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High Interstitial Stainless Austenitic Steels is of interest to all engineers and resaerchers working with stainless steel, either at universities or R&D departments in Industry. The new applications described appeal to design engineers while procees engineers find interesting challenges. These novel steels enter more and more industrial applications. Their development is presented by this book in its entirety, starting from the electronic scale of components. This makes it particlularly attractive to Materials Scientists and Metal Physicists.

Constitution and Magnetism of Iron and its Alloys

Constitution and Magnetism of Iron and its Alloys
Author: Werner Pepperhoff
Publisher: Springer Science & Business Media
Total Pages: 230
Release: 2013-03-09
Genre: Science
ISBN: 3662043459
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This book provides the foundations of understanding the physical nature of iron and its alloys. Basics and recent developments concerning its constitution and magnetism are presented as well as its thermal properties.

Understanding Solids

Understanding Solids
Author: Richard J. D. Tilley
Publisher: John Wiley & Sons
Total Pages: 621
Release: 2005-09-27
Genre: Science
ISBN: 0470026464
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A modern introduction to the subject taking a unique integrated approach designed to appeal to both science and engineering students. Covering a broad spectrum of topics, this book includes numerous up-to-date examples of real materials with relevant applications and a modern treatment of key concepts. The science bias allows this book to be equally accessible to engineers, chemists and physicists. * Carefully structured into self-contained bite-sized chapters to enhance student understanding * Questions have been designed to reinforce the concepts presented * Includes coverage of radioactivity * Relects a rapidly growing field from the science perspective

Physics and Technology of Nuclear Materials

Physics and Technology of Nuclear Materials
Author: Ioan Ursu
Publisher: Elsevier
Total Pages: 541
Release: 2015-08-03
Genre: Technology & Engineering
ISBN: 1483150577
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Physics and Technology of Nuclear Materials presents basic information regarding the structure, properties, processing methods, and response to irradiation of the key materials that fission and fusion nuclear reactors have to rely upon. Organized into 12 chapters, this book begins with selectively several fundamentals of nuclear physics. Subsequent chapters focus on the nuclear materials science; nuclear fuel; structural materials; moderator materials employed to ""slow down"" fission neutrons; and neutron highly absorbent materials that serve in reactor's power control. Other chapters explore the cooling agents; fluids carrying the energy to its final stage of conversion into electric power; thermal and biological shielding materials; some outstanding reactor components; and irradiated fuel reprocessing. The last two chapters deal with nuclear material quality inspection by destructive and non-destructive methods, and specific materials envisaged for use in future thermonuclear reactors. This monograph will be helpful for a wide range of specialists wishing to gear their research and development, education, and other activities toward the field of nuclear power and nuclear technology.