Effects of molecular structure on electrical conduction in molten polyethylene

[1991] Proceedings of the 3rd International Conference on Properties and Applications of Dielectric Materials Pub Date : 1991-07-08 DOI:10.1109/ICPADM.1991.172243

K. Iida, S. Nakamura, G. Sawa

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Abstract

The electrical conduction of various kinds of polyethylene (PE) has been studied above its melting point. PEs were characterized by the amount and types of branches, double bonds, and oxygen-containing groups. Two components of the conduction currents were found; one obeyed Ohm's law in the low field range while the other was proportional to the square of the field at lower temperatures in the high field range, and was also inversely proportional to sample thickness at a constant field. The conduction mechanism of the latter component is ascribed to space-charge-limited current (SCLC). Among the features of PE molecular structures, only the oxygen-containing groups were well correlated with the SCLC. In fact, the oxygen-containing groups reduced the SCLC, suggesting that they act as traps even in the molten state. Branches and double bonds are known to act as traps in the solid state, but they bore no consistent relation to the electrical conduction in the molten state.<>

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分子结构对熔融聚乙烯电导率的影响

研究了各种聚乙烯(PE)熔点以上的导电性能。PEs的特征是支链、双键和含氧基团的数量和类型。发现了传导电流的两个分量;一个在低场范围内服从欧姆定律，另一个在低场范围内与场的平方成正比，在恒定场范围内与样品厚度成反比。后者的传导机制归因于空间电荷限制电流(SCLC)。在PE分子结构特征中，只有含氧基团与SCLC有较好的相关性。事实上，含氧基团降低了SCLC，这表明即使在熔融状态下，它们也起到了捕集器的作用。已知分支和双键在固态中起陷阱的作用，但它们与熔融态的导电性没有一致的关系。

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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[1991] Proceedings of the 3rd International Conference on Properties and Applications of Dielectric Materials

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