Surface resistance of epoxy/BN micro- and Meso-composites exposed to electrical discharges

2013 IEEE International Conference on Solid Dielectrics (ICSD) Pub Date : 2013-10-08 DOI:10.1109/ICSD.2013.6619732

T. Heid, S. Savoie, C. Vanga, M. Frechette, É. David, N. Freebody, A. Vaughan

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引用次数: 6

Abstract

Boron nitride (BN) has shown in the past to improve DC breakdown strength as well as augmenting thermal conductivity. Two different filler sizes, one micrometric with an average particle size of 9 μm and a sub-micrometric one, 0.5 μm in size, have been used to form composites. The amount of each type of BN in the matrix has been varied from 1 to 5 wt%. The samples have been exposed to electrical discharges using a point-to-plane geometry operated in open air. The experiment was conducted at an enhanced frequency of 300 Hz to accelerate the erosion process. The surface erosion has been evaluated after several distinct time steps using a mechanical profilometer. It has been found that introducing BN into epoxy decreases the amount of eroded volume of the organic matrix with decreasing filler amount. In addition, micrometric BN composites performed better than their sub-micrometric counterparts. The dielectric response has been evaluated using broadband dielectric spectroscopy (BDS) at 20°C before the erosion, as well as after each time step. An increase of dielectric losses at very low frequencies for all samples after erosion has been observed, accompanied by a slight increase in real permittivity. Besides the β-peak, the formation of an additional loss peak, located around 1 Hz, has been found.

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环氧/BN微/介复合材料在放电条件下的表面电阻

氮化硼(BN)在提高直流击穿强度和增加导热性方面具有重要作用。两种不同粒径的填料分别为微米级(平均粒径为9 μm)和亚微米级(平均粒径为0.5 μm)，用于制备复合材料。每种BN在基体中的含量从1%到5%不等。样品暴露在使用点对平面几何在露天操作的放电中。在300 Hz的强化频率下进行实验，以加速侵蚀过程。用机械剖面仪在几个不同的时间步后对表面侵蚀进行了评估。结果表明，随着填料量的减少，BN的加入减少了有机基体的侵蚀体积。此外，微米BN复合材料的性能优于亚微米BN复合材料。利用宽带介电光谱(BDS)在侵蚀前和每个时间步之后的20°C下评估了介电响应。在腐蚀后，所有样品在极低频率处的介电损耗都有所增加，同时实际介电常数略有增加。除了β峰外，还发现了一个附加的损耗峰，位于1hz左右。

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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2013 IEEE International Conference on Solid Dielectrics (ICSD)

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