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Effect of Gd addition on the superconducting properties of Ti-based V, Nb, Ta alloys
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作者 SK Ramjan LS.Sharath Chandra +1 位作者 Rashmi Singh m.k.chattopadhyay 《Superconductivity》 2023年第2期58-63,共6页
The critical current density(Jc)of the body centered cubic(bcc)V0.6Ti0.4 alloy enhances significantly after the addition of rare earth Gd as the latter is immiscible in the matrix[S.Paul,et.al,IEEE Trans.Appl.Supercon... The critical current density(Jc)of the body centered cubic(bcc)V0.6Ti0.4 alloy enhances significantly after the addition of rare earth Gd as the latter is immiscible in the matrix[S.Paul,et.al,IEEE Trans.Appl.Supercond.31,5(2021)].Very low solubility of Gd in other bcc elements like Ta and Nb is also well known[Jr.KA Gschneidner in Prog Sci Technol Rare Earths,vol.1,pp.222–258,1964&M Neuberger,et.al in Handbook of Electronic Materials,Vol 4,1972].We use these facts to find the effect of adding 1 at.%Gd into the Nb0.6Ti0.4 and Ta0.4Ti0.6 alloys on the superconducting properties e.g.,the transition temperature(Tc),Jc,flux pinning force density(Fp)and the microstructure.In spite of Gd being ferromagnetic,the Tc in these alloys change only marginally(increase by 0.3 K in Ta0.4Ti0.6 and decrease by 0.15 K in Nb0.6Ti0.4 after Gd addition.The Jc(H?1 T,T=4 K)increases by 5 and 1.5 times respectively in the Gd containing Nb0.6Ti0.4 and Ta0.4Ti0.6 alloys,which is quite small as compared to the increase observed in the V0.6Ti0.4(20 times)system.With Gd addition,the grain size reduces approximately by 65%and 10%respectively in Nb0.6Ti0.4 and Ta0.4Ti0.6.Our analysis indicates that grain boundaries are the major flux line pinning centres in these alloys and the role of Gd in increasing the Jc depends on the effectiveness of Gd in reducing the grain size.The grain boundary density depends strongly on the distribution of Gd precipitates,which is quite different from each other for two alloy systems under study.Moreover,our results suggest that the addition of Gd to commercial Nb‐Ti(Nb0.37Ti0.63)alloy is a new promising route for achieving higher Jc values. 展开更多
关键词 Critical current density FERROMAGNETISM Flux pinning Grain boundary
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