Space Charge Characterization in Insulating Materials used in Aircraft Cables

A. Benyoucef, L. Berquez, G. Teyssèdre, E. Aubert
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Abstract

The increase of on-board power in aircrafts will probably go with massive introduction of DC networks. Though voltages are much less than in power transmission cables, weight optimization implies that systems are not overdesigned. Besides, aeronautic specifications and environment stresses are more demanding. One popular cable technology uses wrapped insulation, with polyimide (PI) as inner insulation and polytetrafluoroethylene (PTFE) as outer layers, ensuring fire resistance and arc tracking resistance properties. Space charge measurements in such multilayer is more complex than in extruded cables. In order to anticipate issues with direct measurements on cables, multilayers of PI and PTFE have been investigated by pulsed electroacoustic (PEA) method. For PI, we clearly show that the fluorinated layer added onto PI to improve adhesion between rolls has a strong impact on the response. The PEA signal is influenced by the bilayer formed due to dielectric permittivity difference mainly. When associating PTFE and PI, the charge resolution within PI is further distorted due to the strong diffusivity of PTFE for acoustic waves. From the present results, difficulties forecasted for the measurement on cable materials are discussed.
航空电缆用绝缘材料中的空间电荷特性
飞机机载功率的增加可能会伴随着直流网络的大规模引入。虽然电压比输电电缆要小得多,但重量优化意味着系统不会过度设计。此外,航空规范和环境压力要求更高。一种流行的电缆技术使用包裹绝缘,聚酰亚胺(PI)作为内绝缘,聚四氟乙烯(PTFE)作为外层,确保耐火性和耐电弧跟踪性能。在这种多层电缆中的空间电荷测量比在挤压电缆中更为复杂。为了预测电缆直接测量的问题,采用脉冲电声(PEA)方法研究了多层PI和PTFE。对于PI,我们清楚地表明,在PI上添加氟化层以改善辊之间的粘附性对响应有很强的影响。PEA信号主要受介电常数差形成的双分子层的影响。当聚四氟乙烯和PI结合时,由于聚四氟乙烯对声波的强扩散性,PI内的电荷分辨率进一步扭曲。从目前的结果出发,对电缆材料测量的难点进行了预测。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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