Cellular electrets -from polymer granules to electromechanically active films

Proceedings. 11th International Symposium on Electrets Pub Date : 2002-12-10 DOI:10.1109/ISE.2002.1042977

J. Raukola, N. Kuusinen, Mika Paajanen

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引用次数: 24

Abstract

The paper describes how to study, develop and manufacture cellular electret films for ingenious applications. In order to create a cellular film, the polymer has to be equipped with fillers. These can be foam nucleating agents, where chemical reaction takes place or fillers, which produce cracks during film stretching. The third method to expand the film into a porous structure is to use the gas diffusion expansion method. The most critical things in determining the final porous structure are the material choice, additives and production method of the film. When porous film has been achieved the film has to be charged to get a permanent electric charge inside the film. The aim is to have electric charge on every single surface level of the porous film. Charging circumstances (charging pressure, charging in different gases, corona level) affect the electret. The electrical properties of the polymer itself is the most impressive element to define the final electret level. The principle of measuring the permanent electric charge at different temperature and the sensitivity levels of the porous film are also described in this study.

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细胞驻极体——从聚合物颗粒到机电活性薄膜

本文介绍了如何研究、开发和制造蜂窝驻极体薄膜，以实现巧妙的应用。为了形成细胞膜，聚合物必须配备填料。这些可以是泡沫成核剂，在化学反应发生的地方或填料，在薄膜拉伸过程中产生裂缝。将薄膜膨胀成多孔结构的第三种方法是采用气体扩散膨胀法。决定最终多孔结构的最关键因素是薄膜的材料选择、添加剂和制作方法。当多孔薄膜被制成时，薄膜必须带电以在薄膜内部获得永久电荷。目的是在多孔膜的每一个表面上都有电荷。充电环境(充电压力，在不同气体中充电，电晕水平)影响驻极体。聚合物本身的电学性质是决定最终驻极体能级的最重要因素。本文还介绍了在不同温度下测量永久电荷的原理和多孔膜的灵敏度水平。

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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Proceedings. 11th International Symposium on Electrets

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