摘要
本文从自然界中植物荷叶表面存在超疏水性和自清洁现象入手,分析荷叶表面存在超疏水性和自清洁性的主要原因,论述基于荷叶效应研发一种瓷与玻璃绝缘子低温抗冻涂层的可行性及研发思路,从模拟荷叶表面性能的微米/纳米级超疏水涂层制备方法及涂敷工艺入手,通过大量的检测和现场实际应用效果观察,为瓷与玻璃绝缘子低温抗冻治理提供一种方法,并成功将该涂层涂溥于实际运行的输电线路瓷与玻璃绝缘子上,有效避免运行中的输电线路瓷与玻璃绝缘子因贯穿性结冰引起线路跳闸故障。
This article from the plants in the nature of lotus leaf surface, super hydrophobic and self-cleaning phenomenon analysis of lotus leaf surface super hydrophobic and since the main cause of clean, this paper based on the research and development of lotus leaf effect a porcelain and glass insulator antifreeze in low temperature coating feasibility and development train of thought, from the simulation of the performance of lotus leaf surface micro/nano super hydrophobic coating preparation and coating process, through a lot of testing and the actual application effect is observed, for low temperature porcelain and glass insulator antifreeze governance provides a kind of method, and the coating TuPu successfully in practical operation on the transmission line of porcelain and glass insulator, effectively avoid running transmission line porcelain and glass insulator line tripping fault caused by themselves a freeze.
出处
《河南电力》
2015年第2期23-25,49,共4页
Henan Electric Power
关键词
输电线路
荷叶效应
低温抗冻
超疏水
自清洁
Transmission lines
Lotus leaf effect
Low temperature antifreeze
Super hydrophobic
Since the clean
