玻璃钢管与低密度聚合物泡沫材料界面的电学研究

Diego Machetti, Isabella Nett, M. Domm, J. Seifert
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引用次数: 0

摘要

空心复合绝缘子(hci)的内部绝缘通常采用低密度介质(如泡沫)来实现。在hci内部使用泡沫材料可以形成泡沫- frp材料的界面。通过实验研究了一种新型保护电极嵌入在玻璃钢材料和新型聚合物泡沫材料界面上的泄漏电流,并建立了有限元模拟模型。实验结果表明,界面电流在皮安范围内,且受泡沫孔隙结构均匀性的影响,与模拟电流相差一个数量级。结合促进剂的使用增强了结合,使界面电流增加了两个数量级。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Electrical Investigations on the Interface between a FRP Tube and a Low-Density Polymeric Foam
The internal insulation of hollow-core composite insulators (HCIs) is typically realized with low-density dielectrics such as foams. The use of foams inside HCIs results in an interface foam-FRP material. The leakage current along an interface composed of an FRP material and a novel sort of polymeric foam was investigated experimentally, with a novel guard electrode arrangement embedded inside the interface, as well as with a FE simulation model. The experimental results indicate that the interface currents are in the picoampere range and that are affected by the homogeneity of the foam’s pore structure, differing from the simulated currents as much as one order of magnitude. The use of an adhesion promoter that enhanced the bonding increased the interface current in two orders of magnitude.
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