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作 者:于凤梅[1] 杨薛军[1] 张科伟 李仙会[2] YU Fengmei;YANG Xuejun;ZHANG Kewei;LI Xianhui(804 Military Representative Office of Shanghai Space Agency,Shanghai 201108,China;Shanghai Key Laboratory of Engineering Materials Application and Evaluation,Shanghai Research Institute of Materials,Shanghai 200437,China)
机构地区:[1]驻上海航天局804所军事代表室,上海201108 [2]上海材料研究所上海市工程材料应用与评价重点实验室,上海200437
出 处:《理化检验(物理分册)》2018年第6期411-417,共7页Physical Testing and Chemical Analysis(Part A:Physical Testing)
摘 要:航天装备的服役环境严酷复杂,材料表面性能直接影响着航天装备是否能够在严酷复杂的环境中长期服役,材料表面处理技术是提高航天用材料表面性能的有力手段之一。对近年来航天工业用各种材料表面处理技术,包括阳极氧化、微弧氧化、电镀、热喷涂、气相沉积及其他一些表面处理技术等进行了概括性的介绍,对上述各种表面处理技术的研究热点以及在不同航天工业用材料上的应用研究现状及取得的最新进展进行了综述;并简要指出了航天工业用材料表面处理技术的发展方向。The service environments for aerospace equipments are very complex and severe,and the surface properties of the materials affect the abilities of the aerospace equipments directly to serve in the harsh and complex environments for a long time.Surface treatment technology is one of the effective means to improve the surface properties of the aerospace materials.The surface treatment technologies used in the aerospace industry in recent years,including anodic oxidation,micro arc oxidation,electroplating,thermal spraying,vapor deposition and other surface treatment technologies,were introduced generally.The research hotspots of various surface treatment technologies as well as the applied research status and the latest progress in different aerospace materials were reviewed.The development directions of the surface treatment technologies for aerospace industry were briefly pointed out.
分 类 号:TB304[一般工业技术—材料科学与工程]
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