为研究热处理对聚乙烯(PE)中水树枝老化特性的影响,选用低密度聚乙烯(LDPE)、过氧化物交联聚乙烯(XLPE)作为试验材料,采用热循环和热冲击两种方法对试样进行处理.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;同时测试试样的力学性能,观测结晶形态,测定XLPE的交联度.结果表明:热处理后,LDPE的力学性能变化不大,XLPE的力学性能明显下降;LDPE的晶块尺寸变小且趋于均匀化,XLPE的晶块尺寸变大且趋于不均匀化;LDPE和XLPE中水树枝都容易发展,XLPE水树枝的老化特性受热处理影响更大.热处理导致材料中微孔聚集、力学性能下降,是造成热处理后材料抗水树枝化性能下降的主要原因.
In order to study the influence of heat treatment on the water treeing in polyethylene, low den-sity polythene and peroxide cross-linked polyethylene were chosen as testing materials, and they were treated by thermal cycle and thermal shock. The water trees were obtained by water-needle electrode method. The morphology of water trees and crystalline morphology was observed by metallographic micro-scope, and the size and initiation rate of water trees were counted. Meanwhile, the mechanical properties of samples and cross-linking degree of XLPE were measured. The results show that the mechanical prop-erties of LDPE change little and the mechanical properties of XLPE decrease obviously after heat treat-ment. The crystal block dimension of LDPE tends to be smaller and even, and the crystal block dimen-sion of XLPE tends to be larger and uneven. The water trees in LDPE and XLPE are both easy to develop, and the ageing characreristics of water trees in XLPE are impacted by heat treatment more obvi-ously. The heat treatment leads to micropore aggregate and mechanical properties decrease, which are the two main reasons of resistance to water trees decreasing for materials after heat treatment.
参考文献
[1] | Steennis E.F.;Kreuger F.H..Water treeing in polyethylene cables[J].IEEE transactions on electrical insulation. (Institute of Electrical and Electronics Engineers. Electrical Insulation Group). New York.,19905(5):989-1028. |
[2] | 金天雄;黄兴溢;江平开;刘飞;郑学哲.用有限元法分析水树尺寸对电场分布的影响[J].高电压技术,2008(3):489-491,564. |
[3] | 阎孟昆;罗俊华;杨黎明;郑传宝.抗水树XLPE电力电缆的工频击穿特性[J].高电压技术,2009(10):2395-2400. |
[4] | Bulinski A.;Bamji S..Water treeing in binary linear polyethylene blends: the mechanical aspect[J].IEEE transactions on dielectrics and electrical insulation: A publication of the IEEE Dielectrics and Electrical Insulation Society,19946(6):949-962. |
[5] | 郑晓泉.在绝缘诊断试验技术的发展中了解水树机理[J].电线电缆,2001(05):26-31. |
[6] | 耿江海;贾伯岩;郭猛.XLPE电缆水树的影响因素及防范措施[J].河北电力技术,2009(2):48-49. |
[7] | 党智敏;亢婕;屠德民.聚合物中水树的研究现状[J].电线电缆,2001(4):30-33. |
[8] | 亢婕;党智敏;屠德民.抑制聚乙烯中水树生长的试验研究[J].绝缘材料,2001(2):40-43. |
[9] | 何军;屠德民.XLPE电缆绝缘中水树的形成机理和抑制方法分析[J].绝缘材料,2008(6):54-59,62. |
[10] | 金天雄;黄兴溢;江平开;仲含芳;金义天.热老化对交联聚乙烯电缆绝缘中水树的影响研究[J].绝缘材料,2007(5):45-48. |
[11] | 周远翔;王旬;邱东刚;严萍;梁曦东;关志成.热处理对聚乙烯形态及其电树起始电压的影响[J].绝缘材料,2001(4):34-37. |
[12] | 周远翔;罗晓光;邱东刚;严萍;梁曦东;关志成.热处理对聚乙烯材料中电树发展的影响[J].绝缘材料,2001(6):26-28. |
[13] | 党智敏;亢婕;尹毅;屠德民.热处理对聚乙烯性能的影响[J].材料研究学报,2001(4):394-398. |
[14] | Jean-Pierre Crine;Jinder Jow.A water treeing model[J].IEEE transactions on dielectrics and electrical insulation: A publication of the IEEE Dielectrics and Electrical Insulation Society,20054(4):801-808. |
[15] | Raharimalala V.;Poggi Y..Influence of polymer morphology on water treeing[J].IEEE transactions on dielectrics and electrical insulation: A publication of the IEEE Dielectrics and Electrical Insulation Society,19946(6):1094-1103. |
[16] | Fan Z.H.;Yoshimura N..The influence of crystalline morphology on the growth of water trees in PE[J].IEEE transactions on dielectrics and electrical insulation: A publication of the IEEE Dielectrics and Electrical Insulation Society,19966(6):849-858. |
[17] | 王金锋;郑晓泉;柳立为;孔志达;黄建锋;杨培才.LDPE结晶形态对水树枝老化特性的影响[J].高电压技术,2010(3):678-684. |
- 下载量()
- 访问量()
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%