文档介绍:图 解 入 门静 电入门手册静电消除器基础知识目录静电入门手册第1章静电是什么? 静电引发故障!··································································2第5章静电消除器的基础知识DC方式和AC方式····························································20·························································3什么时候产生静电?除电时间与静电平衡·······················································22静电是什么?·····································································4物质带电是怎么回事?······················································6单纯由导体引起的静电感应············································7带电列与带电量的关系····················································8·····················································24静电消除器有3种类型······························25·······························26·······························27只有高频AC方式才能做的微小除电静电平衡优良的风扇型静电消除器广范围高速除电的棒型静电消除器·····································9发出“啪!”声音时感知的带电量第6章静电测量 灵巧地测量静电·······························································28静电测量时的注意点·······················································29引力、库仑力灰尘附着的原理······························································10·····························································11静电消除器周围的金属体的影响···································30除电对象物周围的金属体的影响···································31必须进行接地···································································32静电破坏是怎么回事?····················································12引起静电破坏的原因······················································13静电破坏的原理·····························································14第8章静电消除器的维修随着时间的推移,除电能力也变差·····························33除电是指去除电子吗?···················································导电体的除电方法·························································用静电环就可轻松除电····················································1516171819变差的原因①放电针的污垢·········································33变差的原因②放电针的磨损·········································34放电针的维修与寿命·····················································35绝缘体的除电方法用静电消除器除电······································