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多弧离子镀制备的CrTiAlN涂层的结构和摩擦学性能 被引量:4

TiAlCrN coatings deposited by multi-arc plasma deposition
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摘要 用自行设计的多靶阴极电弧离子镀系统在单晶硅和硬质合金衬底上沉积CrTiAlN硬质涂层,用X射线衍射、X射线光电子能谱和扫描电镜系统研究衬底偏压和N2气分压对CrTiAlN涂层结构、形貌和摩擦学性能的影响。结果表明CrTiAlN涂层为面心立方CrN和TiAlN的复合涂层。衬底偏压、N2气分压对涂层的表面形貌、显微硬度和抗磨损性能有较大影响,在氮气分压为5.0 Pa、衬底偏压为-200 V的优化条件下,得到表面光滑的CrTiAlN涂层,涂层硬度为29 GPa,涂层对氮化硅摩擦副的摩擦因数为0.37,沉积速率3.8μm/h。 TiAlCrN nanocomposite coating was prepared by a home-made industrial scale multi-arc plasma deposition system.X-ray diffraction,X-ray photoelectron spectroscopy and scan electron microscopy were employed to investigate the TiAlCrN coatings.The effects of N2 partial pressure,bia-voltage on the structure,morphology and friction property of TiAlCrN coatings were studied.Under optimal conditions(5.0 Pa N2 partial pressure,-200 V bia-voltage),TiAlCrN coating with smooth surface was prepared at 3.8 mm/h and exhibited a hardness of 29 GPa and an average friction coefficient of 0.37 against SiC.
作者 刘传胜 闫少健 田灿鑫 杨兵 付德君
机构地区 武汉大学加速器实验室
出处 《粉末冶金材料科学与工程》 EI 2010年第6期554-559,共6页 Materials Science and Engineering of Powder Metallurgy
基金 国家科技重大专项(2009ZX04012-032)
关键词 多弧离子镀 显微硬度 表面形貌 摩擦因数 multi-arc TiAlCrN microhardness morphology friction coefficient
分类号 TG174.44 [金属学及工艺—金属表面处理]
作者简介 通讯作者:付德君,教授,博士。电话:027-68753587;E-mail:djfu@whu.edu.cn
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参考文献19

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同被引文献44

  • 1何玉定,胡社军,谢光荣.TiN涂层应用及研究进展[J].广东工业大学学报,2005,22(2):31-36. 被引量:25
  • 2姜雪峰,刘清才,王海波.多弧离子镀技术及其应用[J].重庆大学学报(自然科学版),2006,29(10):55-57. 被引量:48
  • 3严少平,孙雅琴,段冰,顾广颐,蒋百灵.非平衡磁控溅射CrTiAlN镀层摩擦学性能分析[J].安徽理工大学学报(自然科学版),2006,26(4):92-96. 被引量:9
  • 4Sveen S, Andersson J M, M'Saoubi R, et al. Scratch adhesion characteristics of PVD TiAIN deposited on high speed steel, ce- mented carbide and PCBN substrates. Wear, 2013, 308:133.
  • 5Fox-RabinovichG S, Yamamoto K, Kovalev A I, et al. Wear be- havior of adaptive nano-multilayered TiA1CrN/NbN coatings under dry high performance machining conditions. Su5c Coat Technol, 2008, 202(10): 2015.
  • 6Tian B, Yue W, Fu Z Q, et al. Microstructure and tribological properties of W-implanted PVD TiN coatings on 316L stainless steel. Vacuum, 2014, 99:68.
  • 7Li P, Chen L, She Q, et al. Microstructure, mechanical and ther- mal properties of TiA1N/CrA1N multilayer coatings. J Refract Met Hard Mater, 2013, 40 : 51.
  • 8Zhou Z F, Tam P L, Shum P W, et al. High temperature oxida- tion of CrTiA1N hard coatings prepared by unbalanced magnetron sputtering. Thin Solid Films, 2009, 517 : 5243.
  • 9Li X Y, Wu W W, Dong H S. Microstructural charactefisation of carbon doped CrA1TiN nanoscale multilayer coatings. Surf Coat Technol, 2011, 205:3251.
  • 10Franz R, Neidhardt J, Kaindl R, et al. Influence of phase tran- sition on the tfibologiea[ performance of arc-evaporated MCrVN hard coatings. Surf Coat Technol, 2009, 203 : 1101.

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粉末冶金材料科学与工程
2010年 第6期

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