Microstructure, mechanical and tribological properties of WC-WCoB coating

Haibin Wang; Xifeng Yan; Xuemei Liu; Hao Lu; Chao Hou; Xiaoyan Song; Zuoren Nie

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Microstructure, mechanical and tribological properties of WC-WCoB coating

机译：WC-WCOB涂层的微观结构，机械和摩擦学性质

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摘要

A new kind of WC-based coating with superhard WCoB compound as the binder was fabricated by the high velocity oxy-fuel spraying of WC-WB-Co powder. The microstructure, mechanical and tribological properties of the WC-WCoB coating were investigated, together with those of the conventional WC-Co coating for comparison. The results demonstrated that the WC-WCoB coating has simultaneously improved hardness and fracture toughness, and thus remarkably decreased wear rate as compared to the conventional coating. The enhanced tribological properties of the WC-WCoB coating are attributed to the low plastic deformation and the resultant inhibition of the micro-ploughing wear and the increased fracture toughness and interfacial bonding, which can reduce the amount of large cracks. Moreover, the high intrinsic hardness of WC and WCoB, as well as their good interfacial bonding, are more effective in resisting against wear as compared with the conventional coating.

机译：通过WC-WB-CO粉末的高速氧燃料喷涂制造了一种具有超硬WCOB化合物的新种类的WC基涂层。研究了WC-WCOB涂层的微观结构，机械和摩擦学特性，以及常规WC-CO涂层的比较。结果表明，与常规涂层相比，WC-WCOB涂层同时提高了硬度和断裂韧性，因此耐磨速率显着降低。 WC-WCOB涂层的增强的摩擦性质归因于低塑性变形和对微耕磨损的所合成的抑制和增加的骨折韧性和界面粘合，这可以减少大裂缝的量。此外，与常规涂层相比，WC和WCOB的高固有硬度以及其良好的界面粘合剂在抵抗耐磨方面更有效。

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来源
《Journal of the European Ceramic Society》 |2018年第15期|共8页
作者
Haibin Wang; Xifeng Yan; Xuemei Liu; Hao Lu; Chao Hou; Xiaoyan Song; Zuoren Nie;
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作者单位

College of Materials Science and Engineering Key Laboratory of Advanced Functional Materials Education Ministry of China Beijing University of Technology;

College of Materials Science and Engineering Key Laboratory of Advanced Functional Materials Education Ministry of China Beijing University of Technology;

College of Materials Science and Engineering Key Laboratory of Advanced Functional Materials Education Ministry of China Beijing University of Technology;

College of Materials Science and Engineering Key Laboratory of Advanced Functional Materials Education Ministry of China Beijing University of Technology;

College of Materials Science and Engineering Key Laboratory of Advanced Functional Materials Education Ministry of China Beijing University of Technology;

College of Materials Science and Engineering Key Laboratory of Advanced Functional Materials Education Ministry of China Beijing University of Technology;

College of Materials Science and Engineering Key Laboratory of Advanced Functional Materials Education Ministry of China Beijing University of Technology;

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原文格式 PDF
正文语种 eng
中图分类陶瓷工业;
关键词
WC-WCoB coating; Plastic deformation; Micro-ploughing; Brittle fracture; Tribological property;

机译：WC-WCOB涂层;塑性变形;微耕;脆性骨折;摩擦学财产;

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Microstructure, mechanical and tribological properties of WC-WCoB coating

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