航空学报 > 2014, Vol. 35 Issue (11): 3182-3189   doi: 10.7527/S1000-6893.2014.0005

金属聚合物复合材料的电树枝生长模拟

姬尧尧, 王富生, 岳珠峰, 刘志强   

  1. 西北工业大学 力学与土木建筑学院, 陕西 西安 710129
  • 收稿日期:2013-11-27 修回日期:2014-03-03 出版日期:2014-11-25 发布日期:2014-03-07
  • 通讯作者: 王富生,Tel.: 029-88431002 E-mail: fswang@nwpu.edu.cn E-mail:fswang@nwpu.edu.cn
  • 作者简介:姬尧尧 男, 硕士研究生.主要研究方向: 复合材料结构和损伤. Tel: 029-88431002 E-mail: jiyaoyao1989@163.com; 王富生 男, 博士, 副教授.主要研究方向: 飞机复合材料结构设计及强度分析. Tel: 029-88431002 E-mail: fswang@nwpu.edu.cn; 岳珠峰 男, 博士, 教授, 长江学者.主要研究方向: 多学科设计优化, 先进材料、结构与系统的强度与寿命理论与方法. Tel: 029-88431062 E-mail: zfyue@nwpu.edu.cn
  • 基金资助:

    高等学校学科创新引智计划 (B07050); 航空科学基金(2013ZF53068); 西北工业大学基础研究基金(JC20110257)

Simulation of Electrical Tree Growth in Metal-loaded Composites

JI Yaoyao, WANG Fusheng, YUE Zhufeng, LIU Zhiqiang   

  1. School of Mechanics, Civil Engineering & Architecture, Northwestern Polytechnical University, Xi'an 710129, China
  • Received:2013-11-27 Revised:2014-03-03 Online:2014-11-25 Published:2014-03-07
  • Supported by:

    "111" Project (B07050); Aviation Science Foundation (2013ZF53068); Basic Research Foundation of Northwestern Polytechnical University (JC20110257)

摘要:

为了研究金属聚合物复合材料的击穿特性,在WZ模型的基础上建立了在绝缘聚合物介质中填充不同体积浓度的理想金属粒子的逾渗模型.利用计算机对放电通道的发展进行仿真,并对得到的仿真图形进行比较,研究了金属颗粒的体积浓度、下极板施加的电压、放电通道内的阈值电压和树点发展的概率指数对放电通道发展的影响.结果表明,金属粒子体积浓度越大,则放电树枝分枝越多.因此,填充金属颗粒可以明显地增强绝缘介质的导电性,其中逾渗阈值为0.6.下极板施加的电压越大,放电通道内的阈值电压和树点发展的概率指数越小,则放电树枝分枝越多,同时放电树枝生长过程中的积累损伤越大,该规律与实际放电情况相符合.

关键词: 复合材料, 金属颗粒, 介质击穿, 阈值电压, 逾渗

Abstract:

Based on the WZ model, a percolation model of metal-loaded composites is simulated in different volume concentrations of metal particles to investigate its dielectric breakdown characteristics. By comparing with the simulation figures, the effects of model parameters on the development of the electrical trees are discussed, such as different volume concentrations of metal particles, electric potential, threshold voltage and probability exponent. The results present that with the increase of volume concentration of metal particles, the number of branches increases. Therefore, the conductivity of insulation material is significantly enhanced by metal particles and the percolation threshold is 0.6. In addition, with the increase of electric potential and the decrease of the threshold voltage and the probability exponent, the number of branches and accumulated damage increase. The result of the characteristic of electrical tree conforms to the actual conditions.

Key words: composite material, metal particle, dielectric breakdown, threshold voltage, percolation

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