NbTi是典型的低温超导材料,广泛应用于核磁共振成像(MRI)、核磁共振(NMR)、高能物理(HEP)等领域.常用NbTi超导材料的临界温度Tc为9.6K,4.2K时的上临界场Hc2为11T,因此NbTi超导材料的应用都是在低场范围内,也是不可替代的低场超导材料.综述了NbTi超导材料的发展现状和未来的发展趋势.
参考文献
[1] | Bruzzone P. .30 Years of Conductors for Fusion: A Summary and Perspectives[J].IEEE Transactions on Applied Superconductivity: A Publication of the IEEE Superconductivity Committee,2006(2):839-844. |
[2] | 金钟声.受控热核聚变实验装置概论[M].合肥:中国科学技术大学出版社,1982:9. |
[3] | 伍勇;韩汝珊.超导物理基础[M].北京:北京大学出版社,1997:2. |
[4] | Hansen M et al.Systems titanium-molybdenum and the ti-taniurn-columbium[J].Journal of Metals,1951,3:881. |
[5] | Kaufman L.Computer calculations of phase diagrams[M].New York:Academic Press,Inc,1970 |
[6] | 须磊 .现代物理知识[J].超导磁体及其应用,2006,18(02):34. |
[7] | Lee P J;et ak .An examination of the properties of SSC phase Ⅱ R&D strands[J].IEEE Transactions on Applied Superconductivity,1983,3:833. |
[8] | Meingast C et al.Quantititative description of a very-high critical current density Nb-Ti superconductor during its final optimization strain:Ⅱ.flux pinning mechanisms[J].Journal of Applied Physics,1989,66:5971. |
[9] | Lee P J et al.Development of high performance Nb-Ti(Fe) multifilamentary superconducting strand for the LHC high gradient quadrupole conducter[J].IEEE Trans Appl Super-cond,1999,9:1559. |
[10] | Heussner R W et al.Increased critical current density in Nb-Ti wires having Nb artificial pinning centers[J].Applied Physics Letters,1997,70:901. |
[11] | Salpietro E .Status of the ITER magnets[J].Superconductor Science and Technology,2006,19:S84. |
[12] | Sborchia C. .Status of ITER magnet design and model coils[J].IEEE Transactions on Applied Superconductivity: A Publication of the IEEE Superconductivity Committee,2000(1):554-559. |
[13] | Maix R K et al.Completion of the ITER toroidal field model coil[J].Fusion Engineering and Design,2001,58-59:159. |
[14] | Libeyre P et al.NbTi superconducting busbars for the ITER TFMC[J].Fusion Engineering and Design,2001,58-59:117. |
[15] | Ciazynski D.;Ricci M.;Duchateau J.L.;Marchese V.;Ulbricht A.;Wuechner F.;Zahn G.;Fillunger H.;Maix R. .Resistances of electrical joints in the TF model coil of ITER: comparisons of first test results with samples results[J].IEEE Transactions on Applied Superconductivity: A Publication of the IEEE Superconductivity Committee,2002(1):543-547. |
[16] | Ciazynski D.Current distribution measurement in the busbars of ITER TFMC[A].Hous-ton,2002 |
[17] | Ciazynski D.;Martinez A. .Electrical and thermal designs and analyses of joints for the ITER PF coils[J].IEEE Transactions on Applied Superconductivity: A Publication of the IEEE Superconductivity Committee,2002(1):538-542. |
[18] | Zani L.Mannfacture and test of NbTi subsize joint samples for the ITER poloidal field coils[A].Houston,2002 |
[19] | Dorofejev G L.Current carrying capacity of supercon ductors with artificial pinning centers[A].Swiss Institute for Nuclear Research,Villigen,1985:564. |
[20] | Heussner R W et al.Increased critical current density in Nb-Ti wires having Nb artificial pinning centers[Q].Applied Physics Letters,1997,70(07):901. |
[21] | Cooley L D et al.Advances in high-field superconducting composites by addition of artificial pinning centres to niobi urn-titanium[J].IEEE Transactions on Applied Superconductivity,1997,3:781. |
[22] | Lee J A;et ak .Superconducting members[P].UK,2038532,1980-07-23. |
[23] | Cooley L.Processing of low-Tc conductors:The alloy Nb-Ti.Handbook of Superconducting Materials[M].Bris-tol,UK:Institute of Physics UK,2003:603. |
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