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引用次数: 11

摘要

指出了交流和直流老化的差异,这一方面是由于两种场下的耗散能不同,另一方面是由于交变应力引起的疲劳。除了这些影响外,样本量对老化和击穿也有相当大的影响。结果表明,从已有的数据中可以很容易地推断出聚乙烯和XLPE在空气直流场下的老化特性。这种方法的优点是避免了长时间的直流测试,这些测试的结果很容易从更短的交流测试中预测出来。该方法还可用于分析各种聚合物的其他电性能测量结果。
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AC and DC Electrical Aging of Polyethylene
The differences between AC and DC aging are pointed out and are partly due to the different dissipated energy under the two types of field and partly due to the fatigue induced by the alternating stress. In addition to these effects, the sample size has also a considerable impact on both aging and breakdown. It is shown, from well known existing data, that the aging characteristics of polyethylene and XLPE under DC field in air could be easily extrapolated from data obtained with the same size sample but aged in air under AC field. This approach has the merit to avoid long DC tests whose results might easily be predicted from much shorter AC tests. It is also suggested that this approach might be used to analyze the results of other electrical properties measurements of various polymers.
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