动机械载荷对交联聚乙烯电缆疏水性能的影响

E. Ildstad, H. Faremo
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引用次数: 1

摘要

本文介绍了交联聚乙烯电缆在电压应力和机械张力作用下的水树老化试验结果。主要目的是检查由于动态机械张力可能导致的水树增强,可能发生在连接浮式海上建筑的电力电缆中。所有实验均采用铜芯12kv三挤交联聚乙烯电缆样品进行。制作了一个试验台,对大约1米长的无导体电缆进行静态和动态拉伸。同时,在电缆绝缘上施加最大伸长率为6%的应变和14kv的有效50hz交流电压。在老化过程中,将电缆样品浸泡在30°C的自来水中。随着机械张力的增大,导网结水树和导网通水树的密度和生长率均显著增加。与静态机械张力相比,在动态机械载荷下没有发现明显的生长增强。发现很少有通风口树起源于隔热屏。-这也表明需要考虑在制造过程中冻结的压缩和拉伸应力的贡献。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effect of dynamic mechanical load on water treeing of XLPE cables
This paper presents results from water tree ageing experiments of XLPE cables exposed to both voltage stress and mechanical tension. The main purpose was to examine possible water tree enhancement due to dynamic mechanical tension forces, likely to occur in power cables connected to floating off-shore constructions. All experiments were performed using samples taken from a 12 kV triple extruded XLPE cable with copper conductor. A test rig was made for both static and dynamic stretching of approximately 1m long cable sections without conductor. Simultaneously strains with a maximum of 6% elongation and an effective 50 Hz AC voltage of 14 kV were applied across the cable insulation. During ageing the cable samples were submerged in tap water kept at 30°C. Both the density and growth rate of bow-tie water trees and vented water trees from the conductor screen were found to increase significantly with increasing mechanical tension. No significant growth enhancement was found in case of dynamic mechanical load compared to that of static mechanical tension. Very few vented trees were found to originate from the insulation screen. - This indicates that also the contribution from compression and tension stresses frozen in during the manufacturing process need to be considered.
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