绝缘材料
絕緣材料
절연재료
INSULATING MATERIALS
2015年
5期
6-9
,共4页
陈志平%黄孙息%白小庆%青双桂
陳誌平%黃孫息%白小慶%青雙桂
진지평%황손식%백소경%청쌍계
聚酰亚胺%抗静电%导电填料%离子注入技术
聚酰亞胺%抗靜電%導電填料%離子註入技術
취선아알%항정전%도전전료%리자주입기술
polyimide%antistatic%conductive filler%ion implantation technique
聚酰亚胺因其良好的绝缘性能使得材料表面容易产生静电,静电的积累会引起燃烧、爆炸等危险,因此如何消除其表面静电是人们长期以来探索的重要课题之一。本文主要介绍了静电产生的机理、静电带来的危害及其危害机理,综述了碳系、金属及金属氧化物系、导电高分子系及离子注入改性4类抗静电聚酰亚胺薄膜的研究进展,并展望了抗静聚酰亚胺薄膜未来的发展趋势。
聚酰亞胺因其良好的絕緣性能使得材料錶麵容易產生靜電,靜電的積纍會引起燃燒、爆炸等危險,因此如何消除其錶麵靜電是人們長期以來探索的重要課題之一。本文主要介紹瞭靜電產生的機理、靜電帶來的危害及其危害機理,綜述瞭碳繫、金屬及金屬氧化物繫、導電高分子繫及離子註入改性4類抗靜電聚酰亞胺薄膜的研究進展,併展望瞭抗靜聚酰亞胺薄膜未來的髮展趨勢。
취선아알인기량호적절연성능사득재료표면용역산생정전,정전적적루회인기연소、폭작등위험,인차여하소제기표면정전시인문장기이래탐색적중요과제지일。본문주요개소료정전산생적궤리、정전대래적위해급기위해궤리,종술료탄계、금속급금속양화물계、도전고분자계급리자주입개성4류항정전취선아알박막적연구진전,병전망료항정취선아알박막미래적발전추세。
Polyimide is easy to produce electrostatic because of its excellent insulating property, and the accumulation of electrostatic may lead to combustion and explosion, thus how to eliminate the surface electrostatic is one of the important subjects for a long time. The generation mechanism of electrostatic, and damage brought by electrostatic and damage mechanism were intruduced mainly. The research prog-ress of antistatic polyimide film materials modified by carbon, metal and metallic oxide, conductive filler, and ion implantation was summarized, and their future prospects were proposed.
