Mitigation of Critical Current Degradation in Mechanically Loaded ${hbox{Nb}}_{3}{hbox{Sn}}$  Superconducting Multi-Strand Cable

Seo K.; Nishimura A.; Hishinuma Y.; Nakamura K.; Takao T.; Nishijima G.; Watanabe K.; Katagiri K.

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Mitigation of Critical Current Degradation in Mechanically Loaded ${hbox{Nb}}_{3}{hbox{Sn}}$ Superconducting Multi-Strand Cable

机译：机械负载的$ {hbox {Nb}} _ {3} {hbox {Sn}} $超导多芯电缆中的关键电流衰减的缓解

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It was reported that Lorentz force caused degradation of critical current in the ITER-TFMC conductor. We have used our novel experimental setup, which utilizes the closed electric circuit concept for critical current and stability measurements of multi-stand superconducting cables. The feature of this setup is mechanical loading applied to the multi-strand cable in the transverse direction. Significant degradation in the critical current of the cable was observed when the average compressive stress was about 20 MPa. This degradation was found irreversible after unloading. We tested the cable with epoxy or ice molds as well. No degradation was observed in the molded cables. We also tested the cable with smaller void fraction. In this case, significant degradation in critical current was observed.

机译：据报道，洛伦兹力导致ITER-TFMC导体中的临界电流降低。我们已经使用了新颖的实验装置，该装置利用闭合电路概念来测量多机架超导电缆的临界电流和稳定性。此设置的特征是在横向方向上将机械负载施加到多股电缆上。当平均压缩应力约为20 MPa时，观察到电缆的临界电流明显下降。发现这种降解在卸载后是不可逆的。我们也用环氧或冰模测试了电缆。在模制电缆中未观察到降解。我们还测试了空隙率较小的电缆。在这种情况下，观察到临界电流明显下降。

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《IEEE Transactions on Applied Superconductivity》 |2008年第2期|p.491-494|共4页
作者
Seo K.; Nishimura A.; Hishinuma Y.; Nakamura K.; Takao T.; Nishijima G.; Watanabe K.; Katagiri K.;
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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类超导体、超导体材料;半导体技术;
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专利

1. Critical Current of Mechanically Loaded ${rm Nb}_{3}{rm Sn}$ Superconducting Multi-Strand Cable [J] . Seo K., Nishimura A., Hishinuma Y., IEEE Transactions on Applied Superconductivity . 2007,第2期

机译：机械负载$ {rm Nb} _ {3} {rm Sn} $超导多芯电缆的临界电流
2. Influence of Wire Parameters on Critical Current Versus Strain Characteristics of Bronze Processed ${hbox {Nb}}_{3}{hbox {Sn}}$ Superconducting Wires [J] . Miyatake T. Applied Superconductivity, IEEE Transactions on . 2012,第3期

机译：导线参数对青铜处理的$ {hbox {Nb}} _ {3} {hbox {Sn}} $超导导线的临界电流和应变特性的影响
3. Numerical Simulation of Critical Current Degradation of $hbox{Nb}_{3}hbox{Sn}$ Strand in CIC Conductor [J] . Murakami H., Ishiyama A., Ueda H., IEEE Transactions on Applied Superconductivity . 2008,第2期

机译：CIC导体中$ hbox {Nb} _ {3} hbox {Sn} $钢绞线临界电流衰减的数值模拟
4. CRITICAL CURRENT AND MECHANICAL BEHAVIOR OF SUB-SIZED Nb_3Sn SUPERCONDUCTING CABLES UNDER TRANSVERSE LOAD [C] . L. Chiesa, M. Takayasu, J. V. Minervini International Cryogenic Materials Conference . 2008

机译：横向负载下亚尺寸NB_3SN超导电缆的临界电流和力学行为
5. Transverse mechanical load effects on superconducting Nb3Sn current-carrying performance. [D] . Wang, Tiening. 2013

机译：横向机械负载对超导Nb3Sn载流性能的影响。
6. Evidence from EXAFS for Different Ta/Ti Site Occupancy in High Critical Current Density Nb3Sn Superconductor Wires [O] . Steve M. Heald, Chiara Tarantini, Peter J. Lee, -1

机译：高临界电流密度Nb3Sn超导线中不同Ta / Ti位置占有率的EXAFS证据
7. Mitigation of Critical Current Degradation in Mechanically Loaded Nb3Sn Superconducting Multi-strand Cable by Ice-molding [O] . K. Seo, Y. Hishinuma, A. Nishimura, 100

机译：用冰成型减轻机械负载Nb3sn超导多股电缆的临界电流退化

Mitigation of Critical Current Degradation in Mechanically Loaded ${hbox{Nb}}_{3}{hbox{Sn}}$ Superconducting Multi-Strand Cable

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