高电压技术
高電壓技術
고전압기술
HIGH VOLTAGE ENGINEERING
2012年
1期
181-187
,共7页
王金锋%李彦雄%刘志民%乌江%郑晓泉
王金鋒%李彥雄%劉誌民%烏江%鄭曉泉
왕금봉%리언웅%류지민%오강%정효천
水树枝%温度%低密度聚乙烯%交联聚乙烯%力学性能%结晶形态
水樹枝%溫度%低密度聚乙烯%交聯聚乙烯%力學性能%結晶形態
수수지%온도%저밀도취을희%교련취을희%역학성능%결정형태
water treeing%temperature%low density polyethylene(LDPE)%cross-linked polyethylene(XLPE)%mechanical properties%crystalline morphology
为研究温度对PE水树枝老化特性的影响,选用低密度聚乙烯(LDPE)、过氧化物(DCP)交联聚乙烯(XLPE)作为试验材料。在室温(20°C)、40°C、60°C、80°C 4个温度下,采用水针电极法培养水树枝,用金相显微镜观测水树枝形态,并统计水树枝尺寸和引发率。研究发现,在60°C以上,温度对PE水树枝老化特性影响显著;水树枝的引发率随温度的升高先减小后增大;水树枝的尺寸随温度的升高总体呈现增大的趋势;LDPE和XLPE的试验得到类似的结果,但XLPE的抗水树枝老化性能优于LDPE。同时研究发现,随温度的升高,材料的力学性能大幅下降。经分析认为,交联限制大晶块的形成,使材料的力学性能增强,是XLPE抗水树枝化性能优于LDPE的两个主要原因;高温下两种材料力学性能下降、微孔膨胀、水分和盐离子的加速扩散是高温下水树枝劣化加速的主要原因。
為研究溫度對PE水樹枝老化特性的影響,選用低密度聚乙烯(LDPE)、過氧化物(DCP)交聯聚乙烯(XLPE)作為試驗材料。在室溫(20°C)、40°C、60°C、80°C 4箇溫度下,採用水針電極法培養水樹枝,用金相顯微鏡觀測水樹枝形態,併統計水樹枝呎吋和引髮率。研究髮現,在60°C以上,溫度對PE水樹枝老化特性影響顯著;水樹枝的引髮率隨溫度的升高先減小後增大;水樹枝的呎吋隨溫度的升高總體呈現增大的趨勢;LDPE和XLPE的試驗得到類似的結果,但XLPE的抗水樹枝老化性能優于LDPE。同時研究髮現,隨溫度的升高,材料的力學性能大幅下降。經分析認為,交聯限製大晶塊的形成,使材料的力學性能增彊,是XLPE抗水樹枝化性能優于LDPE的兩箇主要原因;高溫下兩種材料力學性能下降、微孔膨脹、水分和鹽離子的加速擴散是高溫下水樹枝劣化加速的主要原因。
위연구온도대PE수수지노화특성적영향,선용저밀도취을희(LDPE)、과양화물(DCP)교련취을희(XLPE)작위시험재료。재실온(20°C)、40°C、60°C、80°C 4개온도하,채용수침전겁법배양수수지,용금상현미경관측수수지형태,병통계수수지척촌화인발솔。연구발현,재60°C이상,온도대PE수수지노화특성영향현저;수수지적인발솔수온도적승고선감소후증대;수수지적척촌수온도적승고총체정현증대적추세;LDPE화XLPE적시험득도유사적결과,단XLPE적항수수지노화성능우우LDPE。동시연구발현,수온도적승고,재료적역학성능대폭하강。경분석인위,교련한제대정괴적형성,사재료적역학성능증강,시XLPE항수수지화성능우우LDPE적량개주요원인;고온하량충재료역학성능하강、미공팽창、수분화염리자적가속확산시고온하수수지열화가속적주요원인。
In order to study water treeing in polyethylene at different temperatures,low density polythene and peroxide cross-linked polyethylene were chosen as the testing materials.At room temperature(20°C),40°C,60°C and 80°C,liquid needle electrodes method was used for water tree development,and metallographic microscope was used for observation of water tree morphology.Meanwhile,sizes and initiation rates of water trees were counted.Experimental results show that water treeing characteristics are significantly influenced by temperature when temperature exceeds 60°C.Water tree initiation rates first decrease and then increase with increasing temperature,and water tree sizes show an increasing trend with increasing temperature.The experimental results on LDPE are similar to those on XLPE,but XLPE has better anti-water-treeing performances than LDPE.Meanwhile,experimental results show that mechanical properties of materials dropped significantly as temperature increases.After analyses,it is believed that,cross-linking limits the formation of large crystal block and strengthens the mechanical properties of materials,thus,the anti-water-treeing performance of XLPE is superior to that of LDPE.Meanwhile,the decrease in mechanical prosperities of materials,pore expansion,the accelerated movement of water molecules,and ions are the reasons of acceleration of water treeing at high temperatures.