摘要
等离子体微弧氧化技术可以在铝合金表面原位生长 2 0 2 0 0 μm的陶瓷氧化膜 ,该膜具有很高的硬度 ,大大改善铝合金表面的耐磨、耐蚀特性 .对于某些抗静电要求较高的电子元件 ,除需有较高的耐磨、耐蚀特性外 ,还要求表面电阻控制在 10 610 10 Ω之间 .通过对氧化膜厚度的调整 ,可有效地控制表面电阻的大小 ,从而满足抗静电要求 .
20200 μm ceramic oxidation coatings are in situ formed on the surface of aluminum alloys by plasma micro arc oxidation. The ceramic oxidation coatings with very high hardness improve significantly the abrasive resistance and corrosion resistance of the aluminum alloys. Besides the requirements of high abrasive resistance and corrosion resistance, the surface resistance should be controlled in the range of 10 6 ~10 10 Ω for some electronic components requiring high antielectrostatic property. The surface resistance of the electronic components can be successfully controlled by adjusting the thickness of the ceramic oxidation coatings produced by plasma micro arc oxidation technique.
出处
《北京师范大学学报(自然科学版)》
CAS
CSCD
北大核心
2004年第3期347-349,共3页
Journal of Beijing Normal University(Natural Science)
基金
国家"八六三"计划资助项目 (715 0 110 2 0 )
关键词
等离子体微弧氧化
抗静电
特性
plasma micro-arc oxidation
antielectrostatic property
ceramic coatings