不同材料基体与复合涂层间的结合强度等性能分析

兵工学报 ›› 2002, Vol. 23 ›› Issue (4): 517-520.

不同材料基体与复合涂层间的结合强度等性能分析

荆阳，庞思勤，周兰英，张学恒

北京理工大学机械工程与自动化学院，北京，100081

收稿日期:2001-10-01 修回日期:2002-10-01 上线日期:2014-12-25
通讯作者: 马春茂

Investigation on the Bonding Strength and Other Properties between Different Substrates and Composite Coatings

Jing Yang, Pang Siqin, Zhou Lanying, Zhang Xueheng

School of Mechanical Engineering and Automation, Beijing Institute of Technology, Beijing, 100081

Received:2001-10-01 Revised:2002-10-01 Online:2014-12-25
Contact: MA Chun-mao

摘要/Abstract

摘要： 通过对镀有TiN-MoS2/TiN涂层的不同材料试件及刀具的摩擦学试验，考察了基体的材料及硬度对膜一基结合力、膜层结构等的影响。研究表明，由于Cu基体的氢病和45#钢基体表面易形成碳氢化合物等原因，致使涂层失败；由于基体材料及硬度等的差异，1Cr18Ni9Ti基体与涂层的膜一基结合力等性能优于铝合金基体;当基体材料硬度较高时，涂层后的摩擦学性能也较好。

关键词: 材料表面与界面 , T1N-MoS2/T1N复合涂层 , 相界匹配原则 , 非平衡纳米复合等离子体镀膜技术

Abstract: Through tribological tests of TiN-MoS2 /TiN composite coatings on different substrates and cutting tools, influence of different substrates on the bonding strength, structure of coatings and other properties were investigated. Hydrogen disease in しu samples and formation of hydrocarbon in steel # 45 samples are liable to result in failures of deposition. Due to the difference in material and rigidity, the bond?ing strengh between coatings and sample and other properties of lCrl8Ni9Ti were superior to that of alu?minum alloy. Meanwhile, with the same materials, tribological properties were obviously improved when rigidity of sample became heightened.

Key words: material surface and interface , TiN-M0S2/TiN composite coatings , phase-boundary match?ing principle , unbalanced nano- compound plasma plating technology

中图分类号:

荆阳，庞思勤，周兰英，张学恒. 不同材料基体与复合涂层间的结合强度等性能分析[J]. 兵工学报, 2002, 23(4): 517-520.

Jing Yang, Pang Siqin, Zhou Lanying, Zhang Xueheng. Investigation on the Bonding Strength and Other Properties between Different Substrates and Composite Coatings[J]. Acta Armamentarii, 2002, 23(4): 517-520.

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