水通过电损伤的聚合物渗透

Conference on Electrical Insulation & Dielectric Phenomena — Annual Report 1986 Pub Date : 1986-11-01 DOI:10.1109/CEIDP.1986.7726478

G. Gordon, M. Shaw

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引用次数: 0

摘要

在电场存在的情况下，介质暴露于水分会导致水树的生长可能导致过早失效(1)。尽管研究广泛，但水树的启动和生长机制仍不清楚。与此相关，水通过树木聚合材料的运输模式是一个相当有争议的主题。有人提出，构成水树的空隙是通过通道相互连接的，这些通道在电应力的影响下形成，一旦电场被移除，就会由于表面张力而坍塌(2)。如果是这样的话，我们必须考虑这样一种可能性，即观察到的水树生长速率的应力依赖关系是由通过受损电介质的水输送速率的应力影响控制的。迄今为止，所有有关流体输送研究的工作都没有表明这些通道存在的迹象。然而，研究要么是用未损坏的材料进行的(3)，要么是在没有应用领域的情况下进行的(4,5)。

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Water permeation through electrically damaged polymers

The exposure of dielectrics to moisture in the presence of an electrical field can result in the growth of water trees possibly leading to premature failure (1). Although investigated extensively, the mechanisms of initiation and growth of water trees remain unclear. In relation to this, the mode of water transport through treed polymeric materials is a subject of considerable controversy. It has been suggested that the voids constituting the water trees are interconnected by channels which develop under the influence of electrical stress and collapse due to surface tension once the field is removed (2). If this is the case, one must consider the possibility that the observed stress dependence of the rate of water-tree growth is controlled by the effect of the stress of the rate of water transport through a damaged dielectric. To date, all work dealing with fluid transport studies show no indication of the existence of these channels. However studies were carried out either with undamaged materials (3) or without an applied field (4,5).

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Conference on Electrical Insulation & Dielectric Phenomena — Annual Report 1986

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