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  4. 原位生成纳米SiO2/环氧聚酯改性有机硅耐电晕无溶剂漆的性能研究

绝缘材料, 2015, (1): 25-29.

原位生成纳米SiO2/环氧聚酯改性有机硅耐电晕无溶剂漆的性能研究

黄芬 1, , 张春琪 2, , 景录如 3, , 徐晓风 4, , 刘蓉 5, , 樊保婷 6,

1.苏州太湖电工新材料股份有限公司,苏州,215214

2.苏州太湖电工新材料股份有限公司,苏州,215214

3.苏州太湖电工新材料股份有限公司,苏州,215214

4.苏州太湖电工新材料股份有限公司,苏州,215214

5.苏州太湖电工新材料股份有限公司,苏州,215214

6.苏州太湖电工新材料股份有限公司,苏州,215214

关键词: 原位生成 , 耐电晕 , 纳米SiO2 , 有机硅 , 无溶剂漆

Properties Study of Silicone Corona Resistant Solventless Varnish Modified by In-situ Formation Nano-silica/Epoxy Polyester

Keywords: in-situ formation , corona resistance , nano-silica , silicone , solventless vamish

采用原位生成的纳米SiO2/环氧聚酯改性有机硅树脂制备了TH1178-2耐电晕无溶剂绝缘漆,并与采用直接掺杂法制备的纳米SiO2改性有机硅耐电晕漆TH1178-1的耐电晕性能进行了比较分析。结果表明:原位生成纳米SiO2改性比纳米SiO2直接掺杂改性的粒子分散更加均匀,无明显颗粒团聚现象;TH1178-2耐电晕漆比TH1178-1的耐电晕时间增长幅度更明显,耐电晕性能更好,同时具有优良的电气性能和力学性能,适用于H级以上电机或电器的耐电晕绝缘结构浸渍处理。

A corona resistant solventless insulating varnish TH1178-2 was prepared from the silicone resin modified by in-situ formation nano-silica/epoxy polyester, and its corona resistance property were compared with the silicone corona resistant insulating varnish TH1178-1 modified by directly doping nano-silica. The results show the dispersity of the particles modified by in-situ formation is more even than that modified by directly doping, and the particles have no significant agglomeration phenomena. The corona resistant time of the TH1178-2 increases more obviously than that of the TH1178-1, and the TH1178-2 has excellent corona resistant property, electrical properties and mechanical properties, which is suitable to impregnate the corona resistant insulation structure of the motor or electrical apparatus above H class.

参考文献

[1] 何恩广,周升,刘学忠,徐传骧,陈炳正.PWM变频电机绝缘技术的研究进展[J].绝缘材料,2002(04):18-25.
[2] Penrose H W. Elcctric Motor Tepair for Low Voltagc Induc-tion Motors in PWM Inverter Duty Environments[C]//Proceedings of the Electrical/ElectronicsInsulation Conference, Rosemont, IL,USA,1997:841-848.,1997.
[3] 黄兴溢,柯清泉,江平开,韦平,汪根林.颗粒填充聚合物高介电复合材料[J].高分子通报,2006(12):39-45.
[4] Carraher C E. Giant Molecules:Essential Materials for Every-day Living and Problem Solving[M]. Hoboken, New Jersey:John Wiley & Sons Inc,2003:218-219.,2003.
[5] 陈洁.变频电机绝缘早期损坏的探讨[J].电机与控制应用,2010(07):64-66.
[6] 闵春英,黄玉东,王磊,赵翼.溶胶-凝胶法制备SiO2杂化有机硅树脂及其耐热性能研究[J].化学与黏合,2006(06):372-375.
[7] 陈红生,何恩广.机车变频三相异步牵引电机绝缘系统新思路[J].绝缘材料,2002(06):32-36.
[8] 罗杨,吴广宁,周力任,曹开江.聚合物纳米复合材料耐电晕机理的研究进展[J].绝缘材料,2009(04):49-52.
[9] Roy M, Nelson J K, Mac Crone R K . Polymer Nanocom-posite Dielectrics the Role of the Interface[J].IEEE Transa-tion on Dielectrics and Electrical Insulation,2005,12(4):629-643.,2005.
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