Influence of carbon content on the mechanical properties of TiCN & ndash;Cu nanocomposite coatings prepared by multi-arc ion plating

Sun Hui; Billard Alain; Luo Huan; Zheng Wei-Tao; Zheng Xiao-Long; Dai Ming-Jiang; Lin Song-Sheng; Shi Qian; Sanchette Frederic

首页> 外文期刊>Vacuum: Technology Applications & Ion Physics: The International Journal & Abstracting Service for Vacuum Science & Technology >Influence of carbon content on the mechanical properties of TiCN & ndash;Cu nanocomposite coatings prepared by multi-arc ion plating

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Influence of carbon content on the mechanical properties of TiCN & ndash;Cu nanocomposite coatings prepared by multi-arc ion plating

机译：碳含量对TICN＆Ndash的力学性能的影响;通过多电弧离子电镀制备的Cu纳米复合涂层

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摘要

In order to improve the mechanical properties of TiN?Cu coatings, such as their hardness, adhesion and wear resistance, C atoms are proposed to be introduced into TiN?Cu coatings. In the current work, TiCN?Cu coatings with various carbon content were deposited on the high-speed steel by reactive multi-arc ion plating. The coatings? morphology, structure and mechanical properties were analyzed. The results show that with increase in C content, the coating?s crystallinity degrades. The optimal hardness and adhesion strength of 37 GPa and 58 N can be achieved. A relatively low friction coefficient of about 0.11 is realized when C content is 34.14 at.%. Compared with TiN?Cu coatings without carbon doping, the mechanical properties of TiCN?Cu coatings are improved significantly.

机译：为了提高锡的力学性能？铜涂层的硬度、附着力和耐磨性、碳原子等方面，建议在锡中引入？铜涂层。在目前的工作中，TiCN？采用反应多弧离子镀技术在高速钢表面制备了不同碳含量的铜镀层。涂料？对其形貌、结构和力学性能进行了分析。结果表明，随着C含量的增加，涂层？结晶度降低。可获得37GPa和58N的最佳硬度和粘合强度。当C含量为34.14 at.%时，摩擦系数相对较低，约为0.11。和锡相比？无碳掺杂的铜涂层，TiCN的力学性能？铜涂层得到显著改善。

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《Vacuum: Technology Applications & Ion Physics: The International Journal & Abstracting Service for Vacuum Science & Technology》 |2021年第1期|共9页
作者
Sun Hui; Billard Alain; Luo Huan; Zheng Wei-Tao; Zheng Xiao-Long; Dai Ming-Jiang; Lin Song-Sheng; Shi Qian; Sanchette Frederic;
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作者单位

Jilin Univ Sch Mat Sci &

Engn State Key Lab Superhard Mat Key Lab Automobile Mat MOE Changchun 130012 Peoples R China;

Univ Bourgogne Franche Comt prime CNRS Inst FEMTO ST UMR 6174 UTBM Site Montbeliard F-90010 Belfort France;

Univ Bourgogne Franche Comt prime CNRS Inst FEMTO ST UMR 6174 UTBM Site Montbeliard F-90010 Belfort France;

Jilin Univ Sch Mat Sci &

Engn State Key Lab Superhard Mat Key Lab Automobile Mat MOE Changchun 130012 Peoples R China;

Shandong Univ Sch Space Sci &

Phys Shandong Key Lab Opt Astron &

Solar Terr Environm Weihai 264209 Peoples R China;

Guangdong Inst New Mat Key Lab Guangdong Modern Surface Engn Technol Natl Engn Lab Modern Mat Surface Engn Technol Guangzhou 510651 Peoples R China;

Guangdong Inst New Mat Key Lab Guangdong Modern Surface Engn Technol Natl Engn Lab Modern Mat Surface Engn Technol Guangzhou 510651 Peoples R China;

Guangdong Inst New Mat Key Lab Guangdong Modern Surface Engn Technol Natl Engn Lab Modern Mat Surface Engn Technol Guangzhou 510651 Peoples R China;

Antenne Nogent 52 ICD LASMIS Inst Charles Delaunay Lab Syst Mecan &

Ingn Simultanee Pole Technol Haute Champagne UMR 6279 CNRS F-52800 Nogent France;

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原文格式 PDF
正文语种 eng
中图分类真空技术;真空技术的应用;
关键词
Multi-arc ion plating; C content; TiCN?Cu; Mechanical property;

机译：多电弧离子电镀;C含量;TICN？CU;机械性能;

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3. Effect of Cu content on microstructure, mechanical and anti-fouling properties of TiSiN-Cu coating deposited by multi-arc ion plating [J] . Bai Xuebing, Li Jinlong, Zhu Lihui, Applied Surface Science . 2018,第ptab期

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Influence of carbon content on the mechanical properties of TiCN & ndash;Cu nanocomposite coatings prepared by multi-arc ion plating

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