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为应对12T以上的磁场影响,国际热核聚变反应堆ITER和国内CFETR装置上环向和中心螺线磁体系统己采用Nb3Sn材料;而低温下临界温度和分流温度是超导体稳定运行的重要因素,由于缺乏应变效应对临界温度和分流温度影响的研究,为此,本研究利用模拟应变作用的周期载荷,对Nb3Sn超导股线样品的临界温度和分流温度进行了测试以及数值模拟计算,分析获得扭距等作用使临界温度和分流温度随模拟应变载荷周期退化的结果.同时,推导分流温度随周期载荷变化的双对数分布模型,模型可以描述股线样品中由周期载荷导致的弯曲应变所产生的股线性能降级情况.

In response to the impact of magnet fields above 12 T (Tesla),Nb3Sn has been applied to the central solenoid and the toroidal field on fusion device such as International Thermal-nuclear Experimental Reactor and China Fusion Engineering Testing Reactor.The critical temperature and the current sharing temperature are the key factors for the steady operation of superconducting conductor at low temperature.However,the critical temperature and the current sharing temperature of Nb3Sn-based strand with strain have not been explored.In this paper,using simulation strain effect with load cycle,the critical temperature and the current sharing temperature of short samples was tested,and their values were calculated by a numerical model.The results show that the comprehensive effect of twist pitch leads to degradation of the critical temperature and the current sharing temperature with simulation strain load cycle.Moreover,the evolution model of current sharing temperature with load cycle is built with double logarithm,which can well describe the degradation of short samples resulted from bending strain by the periodic load.

参考文献

[1] 刘方,翁佩德,武玉,谭运飞.超导股线Nb3Sn的性能测试研究[J].低温物理学报,2007(01):68-72.
[2] 齐铭,潘熙锋,闫果,崔利军,孙昱艳,刘国庆,李成山,张平祥,陈永亮.套管法制备Nb3Al超导线材及Nb-Al扩散成相规律研究[J].稀有金属材料与工程,2014(10):2530-2534.
[3] Zhang, PX;Liang, M;Tang, XD;Li, CG;Xiao, CJ;Zhang, K;Zhou, L;Wu, Y;Weng, PD;Lu, YF .Strain influence on J(c) behavior of Nb3Sn multifilamentary strands fabricated by internal tin process for ITER[J].Physica. C, Superconductivity and its applications,2008(15/20):1843-1846.
[4] 梁明,张平祥,唐先德,李金山,卢亚锋,周廉.应变对Nb3Sn多芯股线载流能力的影响[J].金属学报,2009(02):223-226.
[5] 蒋华伟,李战升,武松涛.接触电阻和扭距序列作用下CICC耦合损耗模型[J].电子学报,2014(05):953-957.
[6] 蒋华伟,李向丽,谭玉波.管内电缆导体绞缆序列比对耦合损耗作用的优化计算[J].中国电机工程学报,2014(21):3569-3574.
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