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光学系统用铝合金材料的硬质氧化工艺 被引量:1

Hard anodizing process on aluminum alloy materials for optical system
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摘要 采用先硬质氧化再染黑色的方法对光学系统用铝合金材料进行了处理。检测了氧化膜层的厚度、显微硬度和反射率,分析了溶液成分、电流密度、温度和氧化时间对氧化膜反射率的影响。结果表明,采用含260~300g/L硫酸、10~15g/L草酸和10~20g/L多元醇的溶液在温度5~7℃、电流密度2~3A/dm^2的条件下氧化50min,可获得厚度15um、显微硬度450HV、反射率低于8.4%的硬质氧化膜层,该氧化膜适用于高精度军用光学变焦系统。 A method of hard anodizing followed by black dyeing was used to treat aluminum alloys for optical system. The thickness, microhardness and reflectance of oxide film were measured, and the effects of solution composition, current density, temperature and oxidation time on reflectance of oxide film were analyzed. The results showed that a hard oxide film with thickness of 15 um, microhardness of 450 HV and reflectance below 8.4% can be obtained in a solution containing 260-300 g/L sulfuric acid, 10-15 g/L oxalic acid and 10-20 g/L polyol at temperature 5-7℃ and current density 2-3 A/dm^2. The oxide film is suitable for military optical zoom system with high precision.
出处 《电镀与涂饰》 CAS CSCD 北大核心 2009年第3期24-26,共3页 Electroplating & Finishing
基金 中科院三期创新基金(07Y32W070)
关键词 光学变焦系统 铝合金 硬质氧化 显微硬度 反射率 optical zoom system aluminum alloy hard anodizing microhardness reflectance
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