Evaluation of Pollution Characteristic of Polymer Insulating Material with Surface Nano-Coating by a New Automatic Artificial Pollution Acceleration Test System

M. Higashikoji, M. Motoyama, S. Ohtsuka, M. Hikita, H. Ikeda, J. Gavillet, G. Ravel, E. da Silva, M. Frechette
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引用次数: 2

Abstract

We have so far performed multistress acceleration test (EdF Test:) for SiR (silicone rubber) insulators, which were found to still keep good hydrophobicity even after 5000 hour testing time equivalent to about 10 years for outdoor exposure test in a heavy polluted area [1]. The two tests' results indicate that one should consider non-soluble material in an accelerated pollution test so as to exactly simulate the practical conditions. From this point of view, we have developed a new automatic artificial pollution acceleration test system (AAPATS) which incorporates non-soluble material pollution to cause hydrophobicity decrease of the surface of SiR under virtually practical environments [2]. We evaluated non-soluble material pollution characteristics of SiR finished with various surface nano-coating processings aiming to enhance hydrophobicity of the material suffering from repeated pollution for a long term. The surface of material in the form of plates was treated with nano-coating by plasma enhanced chemical vapor deposition (PECVD). In this paper, we investigate hydrophobicity improvement properties of SiR material with the surface nanocoating treatment after suffering the repeated non-soluble material pollution by AAPATS.
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用新型自动人工污染加速测试系统评价表面纳米涂层聚合物绝缘材料的污染特性
迄今为止,我们对SiR(硅橡胶)绝缘子进行了多应力加速试验(EdF试验:),在重污染地区进行了相当于10年左右的户外暴露试验,5000小时的试验时间后仍能保持良好的疏水性[1]。这两个试验结果表明,加速污染试验应考虑不溶性物质,以准确模拟实际情况。从这个角度来看,我们开发了一种新的自动人工污染加速测试系统(AAPATS),该系统在几乎实际的环境下加入不溶性物质污染,导致SiR表面疏水性下降[2]。我们评估了不同表面纳米涂层处理的SiR的不溶性材料污染特性,旨在提高长期遭受重复污染的材料的疏水性。采用等离子体增强化学气相沉积(PECVD)技术对板材表面进行纳米涂层处理。本文研究了在遭受AAPATS反复不溶性物质污染后,采用表面纳米涂层处理SiR材料的疏水性改善性能。
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