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脉冲功率电缆的受力分析与结构优化
引用本文:董志强, 任人, 黄凯, 等. 脉冲功率电缆的受力分析与结构优化[J]. 强激光与粒子束, 2016, 28: 075002. doi: 10.11884/HPLPB201628.075002
作者姓名:董志强  任人  黄凯  张汇博  张翠花
作者单位:1.陕西省咸阳市西北机电工程研究所, 陕西 咸阳 71 2099
摘    要:强电磁力是造成脉冲功率电缆损坏的主因,其限制了脉冲功率电缆的通流能力。对同轴电缆导体层的受力情况进行了仿真,探讨了电缆导体结构对脉冲功率电缆通流能力的影响。列举了使用过的一种同轴电缆,分析了该种电缆外导体层的受力情况和结构变化趋势,并讨论了试验结果。进一步对另一种结构的同轴电缆进行了分析和试验,认为其具有更好的抗电磁力能力,试验结果表明,其峰值电流达到208 kA,通流能力达到6.9 kA/mm2,验证了这种电缆结构的优越性。 The high electromagnetic force produced by the pulse current is the main reason for the damage of pulse power cable, which also limits the current capacity of pulse power cable. We simulate the stress of the coaxial cable conductor layer, and discuss the cable conductor structures influence on the current capacity of pulse power cable. We example one kind of used coaxial cable, analyze the force of the outer conductor layer and the structure change tendency about the cable, and discuss the test result. Based on all of thoes, we research another structure type coaxial cable, and we believe that it has better capacity to oppose electromagnetic force. The experimental results show that the peak current of the new cable can achieve 208 kA, and the current capacity can achieve 6.9 kA/mm2, which can verify the superiority of the cable. Finally we provide a way to solve the problem of using too many cables in pulse power system.

关 键 词:脉冲功率   同轴电缆   受力分析   通流能力   结构优化
收稿时间:2015-11-06
修稿时间:2016-01-21

Stress analysis and structure optimization of pulse power cable
Dong Zhiqiang, Ren Ren, Huang Kai, et al. Stress analysis and structure optimization of pulse power cable[J]. High Power Laser and Particle Beams, 2016, 28: 075002. doi: 10.11884/HPLPB201628.075002
Authors:Dong Zhiqiang  Ren Ren  Huang Kai  Zhang Huibo  Zhang Cuihua
Affiliation:1. The Northwest Institute of Mechanical and Electrical Engineering,Xianyang 712099,China
Abstract:The high electromagnetic force produced by the pulse current is the main reason for the damage of pulse power cable, which also limits the current capacity of pulse power cable. We simulate the stress of the coaxial cable conductor layer, and discuss the cable conductor structures influence on the current capacity of pulse power cable. We example one kind of used coaxial cable, analyze the force of the outer conductor layer and the structure change tendency about the cable, and discuss the test result. Based on all of thoes, we research another structure type coaxial cable, and we believe that it has better capacity to oppose electromagnetic force. The experimental results show that the peak current of the new cable can achieve 208 kA, and the current capacity can achieve 6.9 kA/mm2, which can verify the superiority of the cable. Finally we provide a way to solve the problem of using too many cables in pulse power system.
Keywords:pulse power  coaxial cable  stress analysis  current capacity  structure optimization
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