高电压技术
高電壓技術
고전압기술
HIGH VOLTAGE ENGINEERING
2012年
10期
2691-2697
,共7页
陈曦%吴锴%王霞%成永红%屠德民%秦楷
陳晞%吳鍇%王霞%成永紅%屠德民%秦楷
진희%오개%왕하%성영홍%도덕민%진해
纳米复合材料%温度梯度%空间电荷%体积电阻率%直流击穿场强%低密度聚乙烯(LDPE)
納米複閤材料%溫度梯度%空間電荷%體積電阻率%直流擊穿場彊%低密度聚乙烯(LDPE)
납미복합재료%온도제도%공간전하%체적전조솔%직류격천장강%저밀도취을희(LDPE)
nanocomposite%temperature gradient%space charge%volume resistivity%dc breakdown strength%low density polyethylene(LDPE)
由于高压直流塑料电缆运行中温度梯度效应会引起场强畸变,选用一种特殊的纳米粒子作为填料,通过熔融共混制备出不同填料质量分数(1%,3%,5%)的低密度聚乙烯(LDPE)纳米复合材料。通过扫描电镜(SEM)观察,证明纳米粒子在聚乙烯中分散均匀。利用电声脉冲(PEA)法研究了温度梯度场下LDPE纳米复合材料中的空间电荷及场强畸变特性;并测量了不同温度下的体积电阻率和直流击穿特性。结果表明,该种纳米粒子的添加能有效改善温度梯度场下聚乙烯绝缘中电荷积聚和场强的畸变现象,并提高聚乙烯的直流击穿强度。同时发现,该聚乙烯纳米复合材料体积电阻率随着温度升高呈现先升后降趋势。
由于高壓直流塑料電纜運行中溫度梯度效應會引起場彊畸變,選用一種特殊的納米粒子作為填料,通過鎔融共混製備齣不同填料質量分數(1%,3%,5%)的低密度聚乙烯(LDPE)納米複閤材料。通過掃描電鏡(SEM)觀察,證明納米粒子在聚乙烯中分散均勻。利用電聲脈遲(PEA)法研究瞭溫度梯度場下LDPE納米複閤材料中的空間電荷及場彊畸變特性;併測量瞭不同溫度下的體積電阻率和直流擊穿特性。結果錶明,該種納米粒子的添加能有效改善溫度梯度場下聚乙烯絕緣中電荷積聚和場彊的畸變現象,併提高聚乙烯的直流擊穿彊度。同時髮現,該聚乙烯納米複閤材料體積電阻率隨著溫度升高呈現先升後降趨勢。
유우고압직류소료전람운행중온도제도효응회인기장강기변,선용일충특수적납미입자작위전료,통과용융공혼제비출불동전료질량분수(1%,3%,5%)적저밀도취을희(LDPE)납미복합재료。통과소묘전경(SEM)관찰,증명납미입자재취을희중분산균균。이용전성맥충(PEA)법연구료온도제도장하LDPE납미복합재료중적공간전하급장강기변특성;병측량료불동온도하적체적전조솔화직류격천특성。결과표명,해충납미입자적첨가능유효개선온도제도장하취을희절연중전하적취화장강적기변현상,병제고취을희적직류격천강도。동시발현,해취을희납미복합재료체적전조솔수착온도승고정현선승후강추세。
When HVDC cable is loaded in service,temperature gradient across the cable thickness will lead to field distortion greatly at the outer surface of insulation.In this paper,we adopted a special kind of nano particle as fillers to prepare pure low density polyethylene(LDPE) and three kinds of nanocomposite with filler fraction of 1%,3%,and 5%,respectively.The surface morphology was observed by scanning electron microscopy(SEM) to prove that nano fillers were dispersed evenly.Space charge accumulation and electrical field distribution under temperature gradient were measured by the pulsed electro-acoustic(PEA) method,and the volume resistivity and DC breakdown strength of the LDPE nanocomposite were measured under different temperatures.The results show that addition of the nano fillers can effectively reduce the space charge accumulation and field distortion under temperature gradient in LDPE,and improve the DC breakdown strength.Furthermore,the volume resistivity of the LDPE nanocomposite increases at first and then decreases as temperature increasing.
