Effects of Different Counterpart Materials on the Tribological Behaviors of Ta-C Film

PAN Fa-qing, ZHANG Hao-yang, DING Ji-cheng, ZHAO Zhi-yong, ZHANG Bao-rong, YANG Ying, PENG Xin, ZHENG Jun

doi:10.16577/j.issn.1001-1560.2023.0029

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Materials Protection >

2023 , Vol. 56 >Issue 2: 9 - 15

DOI: https://doi.org/10.16577/j.issn.1001-1560.2023.0029

Effects of Different Counterpart Materials on the Tribological Behaviors of Ta-C Film

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1.Key Laboratory of Green Fabrication and Surface Technology of Advanced Metal Materials，Ministry of Education，Ma’anshan 243002，China；2.School of Materials Science and Engineering，Anhui University of Technology，Ma’anshan 243002，China；3.Shanxi Diesel Engine Industry Co.，Ltd.，Datong 037027，China；4.Chongqing Construction Industry Group Co.，Ltd.，Chongqing 400054，China

Received date: 2022-07-16

Revised date: 2022-08-26

Accepted date: 2022-09-15

Online published: 2023-02-15

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Abstract

For studying the changing rules of the tribological properties and the related mechanisms of ta-C film in friction against several typical counterpart materials，a ta-C film with a thickness of approximately 1 μm was deposited by the laser-induced arc magnetic filtered vacuum cathode arc technology，and three kinds of counterpart balls with high hardness (WC，Al₂O₃ and 9Cr18) were used for friction and wear test.The microstructure and tribological properties of the ta-C film were systematically investigated by scanning electron microscopy，X-ray photoelectron spectroscopy，Raman spectrometer，surface profilometer，nano-indentation tester and ball-disk friction and wear equipment.Results showed that the ta-C film possessed extremely low friction coefficients in friction against all the three counterpart materials，and exhibited excellent antiwear and antifriction properties.When Al₂O₃ counterpart was employed，the friction coefficient of the film was the lowest with a value of around 0.11；when 9Cr18 counterpart was employed，the film showed the lowest wear rate of 4.0×10^-7 mm³/(N·m)；and when WC counterpart was employed，the film showed the highest wear rate of 7.6×10^-7 mm³/(N·m). Besides，the main wear mechanism of the film was abrasive wear，and a graphitized transfer film with the characteristics of carbon structure was detected on the surfaces of all the counterparts.

Key words： ta-C film; laser-induced arc; transfer film; graphitization; friction and wear

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PAN Fa-qing, ZHANG Hao-yang, DING Ji-cheng, ZHAO Zhi-yong, ZHANG Bao-rong, YANG Ying, PENG Xin, ZHENG Jun . Effects of Different Counterpart Materials on the Tribological Behaviors of Ta-C Film[J]. Materials Protection, 2023 , 56(2) : 9 -15 . DOI: 10.16577/j.issn.1001-1560.2023.0029

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