Low-temperature superconductors:Nb_(3)Sn,Nb_(3)Al,and NbTi  被引量：4

作　　者：Nobuya Banno 

机构地区：[1]National Institute for Materials Science,1-2-1 Sengen,Tsukuba 305-0047,Japan

出　　处：《Superconductivity》2023年第2期35-57,共23页超导（英文）

基　　金：supported by the National Institute for Materials Science.

摘　　要：Low‐temperature superconducting(LTS)wires are of significant importance in high‐field magnet applications.Current developments of the LTS wires are attributed to many studies.Particularly,Nb_(3)Sn is an attractive superconductor with substantial potential for performance improvement in view of an ideal microstructure that maximizes flux pinning properties.To date,various reviews have been reported on the physical properties of low‐temperature superconductors.Therefore,this review focuses on understanding the fundamental phase formations and microstructural controls of low‐temperature superconductors from the perspectives of growth kinetics,nucleation theory,and chemical potentials to facilitate the syntheses of these superconductors and advancement of wire production.Taking Nb_(3)Sn as an example,the effect of Cu addition to Nb_(3)Sn on Nb/Sn reactive diffusion is briefly described.Then,representative Nb_(3)Sn formations are schematically summarized to broaden our understanding of the development behaviors of Nb_(3)Sn.These behaviors are qualitatively reviewed in terms of Sn chemical potential.After mentioning the potential for performance improvement of Nb_(3)Sn,the influences of element additions,specifically those of Zr and Hf additions,resulting in breakthrough microstructural refinements,on Nb/Sn diffusion are investigated.Subsequently,strengthening of the matrix via element additions is reviewed.Thereafter,taking Nb_(3)Al as an example,the features of Nb_(3)Al formation and basic development processes,including low‐temperature processes,metastable phase transformations,and microstructural control,are described.Strain sensitivity,one of the most important properties of Nb_(3)Al,is also briefly reviewed.Then,taking Nb alloy as an example,α‐Ti precipitation in a binary Nb–Ti system is concisely summarized.Subsequently,recently reported new artificial pin incorporation based on a powder method is introduced,followed by a unique study of the application of high‐temperature‐tolerable Nb superco

关 键 词：Nb_(3)Sn Nb_(3)Al NBTI Growth kinetics Diffusion reaction MICROSTRUCTURE 

分 类 号：TM26[一般工业技术—材料科学与工程]