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Fundamental Elements of Applied Superconductivity in Electrical Engineering.

Author: Yinshun Wang
Publisher: Hoboken : Wiley, 2013.
Edition/Format:   eBook : Document : EnglishView all editions and formats
Summary:
Superconducting technology is potentially important as one of the future smart grid technologies. It is a combination of superconductor materials, electrical engineering, cryogenic insulation, cryogenics and cryostats. There has been no specific book fully describing this branch of science and technology in electrical engineering. However, this book includes these areas, and is essential for those majoring in  Read more...
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Genre/Form: Electronic books
Additional Physical Format: Print version:
Wang, Yinshun.
Fundamental Elements of Applied Superconductivity in Electrical Engineering.
Hoboken : Wiley, ©2013
Material Type: Document, Internet resource
Document Type: Internet Resource, Computer File
All Authors / Contributors: Yinshun Wang
ISBN: 9781118451175 1118451171
OCLC Number: 850148449
Notes: 4.9 Mechanical Stability of Superconducting Magnets.
Description: 1 online resource (472 pages)
Contents: FUNDAMENTAL ELEMENTS OF APPLIED SUPERCONDUCTIVITY IN ELECTRICAL ENGINEERING; Contents; Preface; Acknowledgments; Abbreviations and Symbols; 1 Introduction; References; 2 Superconductivity; 2.1 The Basic Properties of Superconductors; 2.1.1 Zero-Resistance Characteristic; 2.1.2 Complete Diamagnetism --
Meissner Effect; 2.1.3 Josephson Effects; 2.2 Critical Parameters; 2.2.1 Critical Temperature Tc; 2.2.2 Critical Field Hc; 2.2.3 Critical Current Density Jc; 2.3 Classification and Magnetization; 2.3.1 Coherence Length; 2.3.2 Classifications; 2.3.3 Type I Superconductor and Magnetization. 2.3.4 Type II Superconductor and Magnetization2.4 Measurement Technologies of Critical Parameters; 2.4.1 Cryogenic Thermometers; 2.4.2 Measurement of Critical Temperature; 2.4.3 Measurement of Critical Current Ic; 2.4.4 Measurement of Critical Magnetic Field; References; 3 Mechanical Properties and Anisotropy of Superconducting Materials; 3.1 Mechanical Properties; 3.1.1 General Description of Mechanical Properties; 3.1.2 Tensile Properties; 3.1.3 Bending Properties; 3.2 Electromagnetic Anisotropy; 3.2.1 Anisotropy of Critical Current in HTS Materials. 3.2.2 Anisotropy of Critical Current in 1G HTS Tape3.2.3 Anisotropy of Critical Current in 2G HTS Tape; 3.2.4 Anisotropy of Critical Current in Bi-2212 Wire; 3.2.5 Anisotropy of n Value for HTS Tape; 3.2.6 Anisotropy of Critical Current Density in HTS Bulk; 3.3 Critical Current Characteristics of LTS Materials; 3.3.1 Dependence of Critical Current Density of NbTi on Magnetic Field; 3.3.2 Dependence of Critical Current Density of NbTi on Magnetic Field and Temperature; 3.3.3 Dependence of Critical Current Density of Nb3Sn on Magnetic Field; 3.4 Irreversible Fields of Superconducting Materials. 3.5 Critical Temperature of Several Kinds of HTS Materials3.6 Thermodynamic Properties of Practical Superconducting Materials; 3.6.1 Thermal and Mechanical Characteristics of Practical Superconducting Materials; 3.6.2 Thermal Contraction of Superconducting Materials; References; 4 Stability of Superconductors; 4.1 Critical States; 4.2 Adiabatic Stabilization; 4.3 Adiabatic Stability with Flux Jump; 4.4 Self-Field Stability; 4.5 Dynamic Stability; 4.5.1 Stability of Composite Superconducting Slab with Cooled Side; 4.5.2 Stability of Composite Superconducting Slab with Cooled Edge. 4.5.3 Dynamic Stability of Current-Carrying Composite Superconductor Slab4.5.4 Dynamic Stability of Current-Carrying Composite Superconductor with Circular Cross-Section; 4.6 Cryostability; 4.6.1 Stekly Parameter; 4.6.2 One-Dimensional Normal Zone Propagation; 4.6.3 Three-Dimensional Normal Propagation Zone and Minimum Quench Energy; 4.7 NPZ Velocity in Adiabatic Composite Superconductors; 4.7.1 Longitudinal Propagation Velocity; 4.7.2 Transverse Propagation Velocity; 4.8 Stability of HTS Bulks; 4.8.1 Evolution of Super-Current Density; 4.8.2 Magnetic Relaxation.

Abstract:

Superconducting technology is potentially important as one of the future smart grid technologies. It is a combination of superconductor materials, electrical engineering, cryogenic insulation, cryogenics and cryostats. There has been no specific book fully describing this branch of science and technology in electrical engineering. However, this book includes these areas, and is essential for those majoring in applied superconductivity in electrical engineering. Recently, superconducting technology has made great progress. Many universities and companies are involved in applied superco.

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