电树形形成是高压直流应用中聚合物材料抗降解性的一种测量方法

2013 Annual Report Conference on Electrical Insulation and Dielectric Phenomena Pub Date : 2013-10-01 DOI:10.1109/CEIDP.2013.6747433

Le Wang, Xiangrong Chen, Libin Hu, S. Gubanski, J. Blennow

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引用次数: 7

摘要

在制定用于高压直流应用的聚乙烯(PE)耐电气树性测试方法的框架中，在XLPE样品热老化前后进行了电气树初始测试。为此，将线平面电极几何形状的测试对象暴露在不同的电压状态下。所获得的结果表明，直流预应力之后施加极性相反的电压脉冲，对于所研究材料中可重复启动的电树来说是最成功的。形成细的树状细丝，在丝电极(即高压电极)附近随机分布。在热老化期较长的样品中发现了更多的树和更长的树枝。这些结果与在交流电压斜坡下并行进行的树启动试验的结果相吻合。因此，假设交流电气树初始测试可以成功地用于评估高压直流应用中材料的耐降解性。

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Electrical tree formation as a measure of degradation resistance in polymeric materials for HVDC applications

In the framework of elaborating a methodology for testing the resistance to electrical treeing of polyethylene (PE) for HVDC applications, electrical tree inception tests were performed before and after a thermal ageing on XLPE samples. For this purpose test objects of wire-plane electrode geometry were exposed to various voltage regimes. The obtained results show that a DC pre-stress followed by an application of voltage pulses of opposite polarity appeared most successful for a repeatable inception of electrical trees in the studied materials. Thin tree filaments were formed, distributing randomly at the vicinity of the wire electrode (i.e. high voltage electrode). More trees and longer branches were found in the samples having longer thermal ageing period. These results correlate well with results of in parallel performed tree inception tests under AC voltage ramping. It is therefore postulated that an AC electrical tree inception test can successfully be used for evaluating degradation resistance of materials for HVDC applications.

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2013 Annual Report Conference on Electrical Insulation and Dielectric Phenomena

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