Applied Superconductivity, Metallurgy, and Physics of Titanium Alloys

Applied Superconductivity, Metallurgy, and Physics of Titanium Alloys
Title Applied Superconductivity, Metallurgy, and Physics of Titanium Alloys PDF eBook
Author E.W. Collings
Publisher Springer Science & Business Media
Pages 868
Release 1986-01-31
Genre Science
ISBN 9780306416903

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Scope and Purpose Although conductors based on the Al5 intermetallic compound Nb Sn 3 possess desirable high-field superconducting properties, manufacturing and handling difficulties, coupled with the tendency of their critical current densities to degrade rapidly under stress, have generally restricted their use to fairly straightforward, usually small-scale solenoidal-magnet applica tions. Likewise the Al5 compound VGa, which has a wider critical strain 3 window than NbSn but a uniformly lower upper critical field, has not 3 entered widespread service. Strain has been found to have no measurable influence on either the critical fields or the critical current densities of compound superconductors with BI and Cl5 crystal structures, but as yet they are still in the research and development stages. On the other hand, conductors using the binary alloy Ti-Nb or multi component alloys based on it, because of their relative ease of manufacture, excellent mechanical properties, and relatively low strain sensitivities, are now being pressed into service in numerous large-scale devices. Such conductors are being wound into magnets for use in energy storage, energy conversion (i. e. , generators and motors), and high-energy particle detectors and beam-handling magnets. of cold-rolled or drawn Ti-Nb-alloy wire for superconducting The use magnet applications was first proposed in 1961. During the ensuing ten years, while progress was being made in the development of Cu-clad filamentary-Ti-Nb-alloy conductors, Ti-Nb and other Ti-base binary transi tion-metal (TM) alloys were being employed as model systems in the fundamental study of type-II superconductivity.

Applied Superconductivity, Metallurgy, and Physics of Titanium Alloys

Applied Superconductivity, Metallurgy, and Physics of Titanium Alloys
Title Applied Superconductivity, Metallurgy, and Physics of Titanium Alloys PDF eBook
Author E.W. Collings
Publisher Springer Science & Business Media
Pages 835
Release 2013-03-07
Genre Science
ISBN 146132095X

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Scope and Purpose Although conductors based on the Al5 intermetallic compound Nb Sn 3 possess desirable high-field superconducting properties, manufacturing and handling difficulties, coupled with the tendency of their critical current densities to degrade rapidly under stress, have generally restricted their use to fairly straightforward, usually small-scale solenoidal-magnet applica tions. Likewise the Al5 compound VGa, which has a wider critical strain 3 window than NbSn but a uniformly lower upper critical field, has not 3 entered widespread service. Strain has been found to have no measurable influence on either the critical fields or the critical current densities of compound superconductors with BI and Cl5 crystal structures, but as yet they are still in the research and development stages. On the other hand, conductors using the binary alloy Ti-Nb or multi component alloys based on it, because of their relative ease of manufacture, excellent mechanical properties, and relatively low strain sensitivities, are now being pressed into service in numerous large-scale devices. Such conductors are being wound into magnets for use in energy storage, energy conversion (i. e. , generators and motors), and high-energy particle detectors and beam-handling magnets. of cold-rolled or drawn Ti-Nb-alloy wire for superconducting The use magnet applications was first proposed in 1961. During the ensuing ten years, while progress was being made in the development of Cu-clad filamentary-Ti-Nb-alloy conductors, Ti-Nb and other Ti-base binary transi tion-metal (TM) alloys were being employed as model systems in the fundamental study of type-II superconductivity.

Applied Superconductivity, Metallurgy, and Physics of Titanium Alloys:

Applied Superconductivity, Metallurgy, and Physics of Titanium Alloys:
Title Applied Superconductivity, Metallurgy, and Physics of Titanium Alloys: PDF eBook
Author E.W. Collings
Publisher Springer
Pages 736
Release 1986-03-31
Genre Science
ISBN

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Applied Superconductivity, Metallurgy, and Physics of Titanium Alloys

Applied Superconductivity, Metallurgy, and Physics of Titanium Alloys
Title Applied Superconductivity, Metallurgy, and Physics of Titanium Alloys PDF eBook
Author E.W. Collings
Publisher Springer
Pages 854
Release 1986-01-31
Genre Science
ISBN 9780306416903

Download Applied Superconductivity, Metallurgy, and Physics of Titanium Alloys Book in PDF, Epub and Kindle

Scope and Purpose Although conductors based on the Al5 intermetallic compound Nb Sn 3 possess desirable high-field superconducting properties, manufacturing and handling difficulties, coupled with the tendency of their critical current densities to degrade rapidly under stress, have generally restricted their use to fairly straightforward, usually small-scale solenoidal-magnet applica tions. Likewise the Al5 compound VGa, which has a wider critical strain 3 window than NbSn but a uniformly lower upper critical field, has not 3 entered widespread service. Strain has been found to have no measurable influence on either the critical fields or the critical current densities of compound superconductors with BI and Cl5 crystal structures, but as yet they are still in the research and development stages. On the other hand, conductors using the binary alloy Ti-Nb or multi component alloys based on it, because of their relative ease of manufacture, excellent mechanical properties, and relatively low strain sensitivities, are now being pressed into service in numerous large-scale devices. Such conductors are being wound into magnets for use in energy storage, energy conversion (i. e. , generators and motors), and high-energy particle detectors and beam-handling magnets. of cold-rolled or drawn Ti-Nb-alloy wire for superconducting The use magnet applications was first proposed in 1961. During the ensuing ten years, while progress was being made in the development of Cu-clad filamentary-Ti-Nb-alloy conductors, Ti-Nb and other Ti-base binary transi tion-metal (TM) alloys were being employed as model systems in the fundamental study of type-II superconductivity.

A Sourcebook of Titanium Alloy Superconductivity

A Sourcebook of Titanium Alloy Superconductivity
Title A Sourcebook of Titanium Alloy Superconductivity PDF eBook
Author E.W. Collings
Publisher Springer Science & Business Media
Pages 537
Release 2012-12-06
Genre Technology & Engineering
ISBN 1461337038

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In less than two decades the concept of supercon In every field of science there are one or two ductivity has been transformed from a laboratory individuals whose dedication, combined with an innate curiosity to usable large-scale applications. In the understanding, permits them to be able to grasp, late 1960's the concept of filamentary stabilization condense, and explain to the rest of us what that released the usefulness of zero resistance into the field is all about. For the field of titanium alloy marketplace, and the economic forces that drive tech superconductivity, such an individual is Ted Collings. nology soon focused on niobium-titanium alloys. They His background as a metallurgist has perhaps given him are ductile and thus fabricable into practical super a distinct advantage in understanding superconduc conducting wires that have the critical currents and tivity in titanium alloys because the optimization of fields necessary for large-scale devices. More than superconducting parameters in these alloys has been 90% of all present-day applications of superconductors almost exclusively metallurgical. Advantages in use titanium alloys. The drive to optimize these training and innate abilities notwithstanding, it is alloys resulted in a flood of research that has been the author's dedication that is the essential com collected, condensed, and analyzed in this volume.

Engineering Superconductivity

Engineering Superconductivity
Title Engineering Superconductivity PDF eBook
Author Peter J. Lee
Publisher John Wiley & Sons
Pages 677
Release 2001-05-02
Genre Technology & Engineering
ISBN 0471411167

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Comprehensive coverage of superconductivity from the Wiley Encyclopedia of Electrical and Electronics Engineering Engineering Superconductivity features fifty articles selected from the Wiley Encyclopedia of Electrical and Electronics Engineering, the one truly indispensable reference for electrical engineers. Superconductor technology has made highly advanced experiments possible in chemistry, biochemistry, particle physics, and health sciences, and introduced new applications currently in use in fields from medicine to cellular communications. Taken together, these articles-written by acknowledged experts in the field-provide the most complete and in-depth accounting of superconductivity in existence. The book brings together a wealth of information that would not be available to those who do not have access to the full 24-volume encyclopedia. This thorough survey looks at the application of superconductors from an engineer's practical perspective rather than a theoretical approach. Engineering Superconductivity provides full coverage of the fundamentals of superconducting behavior and explains the properties and fabrication methods of commercially produced superconductors. Up-to-date material on superconductor applications as well as competing technologies is included. The fifty articles presented here are divided into three sections: Superconductivity and magnetism Superconductors Applications and related technology Engineering Superconductivity is a complete and up-to-date reference for engineers, physicists, chemists, materials scientists, and anyone working with superconductors.

Advances in Cryogenic Engineering Materials

Advances in Cryogenic Engineering Materials
Title Advances in Cryogenic Engineering Materials PDF eBook
Author R.W. Fast
Publisher Springer Science & Business Media
Pages 759
Release 2012-12-06
Genre Technology & Engineering
ISBN 1461398800

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Papers by leading engineers and scientists in the field report the latest advances in low temperature materials science and technology and set priorities for new research. The topics covered include general superconductor theory, measurement, and processing; low temperature superconductors; high tem