Variation in Charge Transport Behavior of Polypropylene/Elastomer Blends Exposed to Thermal Cycling

Zheng Song, Yu Gao, Jing Li, Jinjing Peng, B. Du
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引用次数: 1

Abstract

Polypropylene (PP) has great electrical insulation performance and is easy to recycle, which makes it a promising candidate for high voltage direct current (HVDC) cable insulation. The cable in real operation has to face both high and low temperatures which are originated from the change in current carrying capacity of cable conductor, which may bring variation in material structure of cable insulation thus influencing the electrical performance. In this work, isotactic polypropylene blended with different content polypropylene based elastomer (PBE) and ethylene octane elastomer (EOC) were prepared as test samples. The influence of the thermal cycling time on the micro-structure and charge trans port manner of the blend samples were discussed. Obtained results indicated that similar changes appeared on PP/PBE and PP/EOC blends with the increase of thermal cycling times. Only a small part of the PP/elastomer blends was oxidized and less carbonyl group was generated. The diameter of the PP/elastomer blends crystallization became smaller and a small amount of the shish-kebab crystal was formed, while the boundaries of spherulites and amorphous region were increased. The trap density and the trap depth increased, the carrier mobility increased, and DC breakdown strength dramatically decreased. It is suggested that the charge transport in PP/elastomer blends is accelerated due to the significant increase of shallow carrier trap caused by the thermal cycling aging.
热循环下聚丙烯/弹性体共混物电荷输运行为的变化
聚丙烯(PP)具有良好的电绝缘性能,且易于回收利用,是高压直流电缆绝缘的理想材料。电缆在实际运行中必须同时面对高温和低温,高温是由于电缆导体载流能力的变化而产生的,这种变化会引起电缆绝缘材料结构的变化,从而影响电缆的电气性能。以不同含量的聚丙烯基弹性体(PBE)和乙烯辛烷弹性体(EOC)共混聚丙烯为实验材料,制备了等规聚丙烯。讨论了热循环时间对共混样品微观结构和电荷输运方式的影响。结果表明,随着热循环次数的增加,PP/PBE和PP/EOC共混物的性能也出现了类似的变化。只有一小部分PP/弹性体共混物被氧化,羰基生成较少。聚丙烯/弹性体共混结晶直径变小,形成少量羊肉串晶体,球晶和无定形区边界增大。陷阱密度和深度增加,载流子迁移率增加,直流击穿强度显著降低。热循环老化导致的浅载流子陷阱显著增加,加速了PP/弹性体共混物中的电荷输运。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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