sPP含量对PP共混绝缘介电弛豫和陷阱能级特性的影响

M. Fan, Zhonglei Li, B. Du, S. Zhou
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摘要

聚丙烯(PP)由于其更高的耐热性和更高的电阻率,被认为是一种可回收的替代交联聚乙烯(XLPE)用于电缆绝缘的材料。研究了等规PP (iPP)、共规PP (sPP)和无规PP (aPP)共混物的介电弛豫和阱能级特性。讨论了聚丙烯共混物的极化响应与陷阱能级特性之间的关系。采用频域介电光谱(FDS)方法分析了5种PP共混物在50、70和90℃时的极化响应。通过等温表面电位衰减(ISPD)测试获得了阱能级分布,并讨论了阱能级特性对介质响应的影响。五种样品的聚合物极化行为a和$\delta$分别与节段运动和载流子跳跃行为密切相关。随着sPP含量的增加,弛豫强度($\Delta\varepsilon_{a}$)的强度减小,这是由于PP分子链之间的相关系数(g)减小所致。计算出$\delta$过程的能量$E_{\tau}$与浅阱能级成正比,因为高能级的浅阱增加了载流子跳跃行为的势垒。温度的升高使偶极子在电场中发生强烈的布朗运动,导致$\Delta\varepsilon_{a}$随温度的升高而减小。电荷的热运动增加了PP中载流子的迁移率,并导致$\Delta\varepsilon_{\delta}$随温度升高而增加。
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 sPP Content on Dielectric Relaxation and Trap Level Characteristics of PP blend insulation
Polypropylene (PP) is regarded as a recyclable alternative to XLPE for cable insulation on account of its higher heat resistance and higher electrical resistivity. The dielectric relaxation and trap level characteristics of isotactic PP (iPP), syndiotactic PP (sPP) as well as atactic PP (aPP) blends are investigated. The associations between polymer polarization response and traps level characteristics of PP blends are discussed. Frequency-domain dielectric spectroscopy (FDS) methods are used to analyze the polarization response of five PP blends at 50, 70 and 90 0C. Isothermal surface potential decay (ISPD) tests are performed to acquire the traps level distribution and the influences of traps level characteristics on the dielectric response are discussed. The polymer polarization behaviours a and $\delta$ of five samples is closely related to segmental movements and carriers hopping behaviours, separately. The intensity of a relaxation strength ($\Delta\varepsilon_{a}$) declines with the increase of sPP content, because the related coefficient (g) between PP molecular chains is reduced. The calculated energy $E_{\tau}$ for $\delta$ process is in proportion to the shallow traps level, because the shallow traps with a higher level increase the potential barriers of carriers hopping behaviors. The increase in temperature causes the dipole to undergo intense Brownian motion in the electric field, resulting in a decrease in $\Delta\varepsilon_{a}$ with increasing temperature. The thermal motion of the charge increases the mobility of carriers in the PP and causes $\Delta\varepsilon_{\delta}$ to increasewith increasingtemperature.
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