Microstructure and properties of TiN/Ni composite coating prepared by plasma transferred arc scanning process 被引量：3

Microstructure and properties of TiN/Ni composite coating prepared by plasma transferred arc scanning process

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摘要 The TiN/Ni composite coatings were deposited on 7005 aluminium alloy by high speed jet electroplating and then processed with plasma transferred arc(PTA)scanning process.The microstructure,microhardness and friction coefficient of PTA scanning treated specimens were investigated.It is shown that the PTA scanning treated specimens have a rapidly solidified microstructure consisting of the uniformly distributed TiN phase and fine Al3Ni2 intermetallic phases.The composite coating has an average microhardness of approximately HV 800.The friction coefficient of PTA scanning treated specimens(oscillated at around 0.25)is considerably lower than that of TiN/Ni composite coating(oscillated at around 0.35).The corrosion behavior of the composite coating in 3.5%NaCl solution at room temperature was also determined using a potentiostat system.In comparison with the corrosion potentialφcorr of-0.753 V for 7005 aluminium alloy,the corrosion potentials for TiN/Ti composite coating and PTA scanning treated specimen are increased by 0.148 V and 0.305 V,respectively.The PTA scanning treated specimen has the lowest corrosion current density Jcorr as well as the highest corrosion potentialφcorr,showing an improved corrosion resistance compared with 7005 aluminium alloy. The TiN/Ni composite coatings were deposited on 7005 aluminium alloy by high speed jet electroplating and then processed with plasma transferred arc（PTA） scanning process. The microstructure, microhardness and friction coefficient of PTA scanning treated specimens were investigated. It is shown that the PTA scanning treated specimens have a rapidly solidified microstructure consisting of the uniformly distributed TiN phase and fine Al3Ni2 intermetallic phases. The composite coating has an average microhardness of approximately HV 800. The friction coefficient of PTA scanning treated specimens （oscillated at around 0.25） is considerably lower than that of TiN/Ni composite coating （oscillated at around 0.35）. The corrosion behavior of the composite coating in 3.5% NaCl solution at room temperature was also determined using a potentiostat system. In comparison with the corrosion potential φcour of-0.753 V for 7005 aluminium alloy, the corrosion potentials for TiN/Ti composite coating and PTA scanning treated specimen are increased by 0.148 V and 0.305 V, respectively. The PTA scanning treated specimen has the lowest corrosion current density Jcorr as well as the highest corrosion potential φcorr, showing an improved corrosion resistance compared with 7005 aluminium alloy.

作者王伟钱士强周细应

机构地区 School of Materials Engineering

出处《中国有色金属学会会刊：英文版》 EI CSCD 2009年第5期1180-1184,共5页 Transactions of Nonferrous Metals Society of China

基金 Project(0852nm01400)supported by Shanghai Municipal Developing Foundation of Science and Technology,China Project(XK0706)supported by the Leading Academic Discipline of Shanghai Education Commission,China

关键词镍基复合镀层扫描过程微观结构等离子弧氮化钛转移弧复合涂层扫描处理 plasma transferred arc TiN/Ni friction coefficient microstructure corrosion resistance

分类号 TG174.44 [金属学及工艺—金属表面处理]

作者简介 WANG Wei; Tel：＋86-21-67791203i E-mail： wangwei200173@sina.com

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中国有色金属学会会刊：英文版

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