高电压技术
高電壓技術
고전압기술
HIGH VOLTAGE ENGINEERING
2012年
10期
2611-2616
,共6页
王梓杨%朱正一%贾志东%关志成%李锐海%王国利
王梓楊%硃正一%賈誌東%關誌成%李銳海%王國利
왕재양%주정일%가지동%관지성%리예해%왕국리
硅橡胶(SR)%直流(DC)%斜面法%憎水性%泄漏电流%电弧
硅橡膠(SR)%直流(DC)%斜麵法%憎水性%洩漏電流%電弧
규상효(SR)%직류(DC)%사면법%증수성%설루전류%전호
silicone rubber(SR)%direct current(DC)%inclined plane test%hydrophobicity%leakage current%arc
为研究直流电弧烧蚀作用下硅橡胶材料表面特性的变化,利用直流斜面法装置,从憎水性丧失和恢复特性、泄漏电流变化、生成物质特性3个方面对硅橡胶材料进行漏电起痕实验。实验发现,污秽放电过程分4个发展阶段,分别为随机初始电弧、电弧集中烧蚀、憎水性物质形成及电弧终止。在每个阶段,硅橡胶烧蚀部分的憎水性分布具有典型特征,泄漏电流随硅橡胶表面破坏速度和范围的变化同步发展。不同试品在电弧烧蚀过程中,均会产生具有憎水性的白色粉末,该物质的出现会阻碍电弧的发展。实验结束后将试品于恒温箱中放置48h,发现硅橡胶材料在电弧烧蚀破坏部分静态接触角可达到136.6°,憎水性得到很好的恢复,好于新的硅橡胶样品。
為研究直流電弧燒蝕作用下硅橡膠材料錶麵特性的變化,利用直流斜麵法裝置,從憎水性喪失和恢複特性、洩漏電流變化、生成物質特性3箇方麵對硅橡膠材料進行漏電起痕實驗。實驗髮現,汙穢放電過程分4箇髮展階段,分彆為隨機初始電弧、電弧集中燒蝕、憎水性物質形成及電弧終止。在每箇階段,硅橡膠燒蝕部分的憎水性分佈具有典型特徵,洩漏電流隨硅橡膠錶麵破壞速度和範圍的變化同步髮展。不同試品在電弧燒蝕過程中,均會產生具有憎水性的白色粉末,該物質的齣現會阻礙電弧的髮展。實驗結束後將試品于恆溫箱中放置48h,髮現硅橡膠材料在電弧燒蝕破壞部分靜態接觸角可達到136.6°,憎水性得到很好的恢複,好于新的硅橡膠樣品。
위연구직류전호소식작용하규상효재료표면특성적변화,이용직류사면법장치,종증수성상실화회복특성、설루전류변화、생성물질특성3개방면대규상효재료진행루전기흔실험。실험발현,오예방전과정분4개발전계단,분별위수궤초시전호、전호집중소식、증수성물질형성급전호종지。재매개계단,규상효소식부분적증수성분포구유전형특정,설루전류수규상효표면파배속도화범위적변화동보발전。불동시품재전호소식과정중,균회산생구유증수성적백색분말,해물질적출현회조애전호적발전。실험결속후장시품우항온상중방치48h,발현규상효재료재전호소식파배부분정태접촉각가체도136.6°,증수성득도흔호적회복,호우신적규상효양품。
To study the variation of surface properties under DC contamination discharge,focusing on three parts,i.e.,the loss and recovery of hydrophobicity,development of leakage current,and the characteristic of the substance generated,we experimentally researched the silicone rubber(SR) using inclined plane method.The experimental results showed that the development process of contamination discharge were through four stages,which were defined as random arcs along SR surface,damage within concentrated area,formation of hydrophobic substances,and the extinction of arcs.The hydrophobicity distribution along the SR surface was distinctive at each stage,meanwhile the peak value of leakage current changed with the variation of the surface damage.It was observed that a kind of hydrophobic substance was generated with the combustion of the DC arcs.This white powder-like substance was found on SR of several manufacturers,and it affected the location and duration of arcs.After the tests,the damaged SR samples were laid in the incubator for 48 hours,then the hydrophobicity of the damaged area was measured.It was found that the recovery of hydrophobicity of this area was quite good and the contact angle even exceeded the original level of the SR samples.