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Journal of Synthetic Crystals, Volume. 50, Issue 11, 2067(2021)

Tribological Properties of SiC-Based Diamond Films Synthesized with Different Methane Concentrations

WANG He1,2, SHEN Jianhui1,2, YAN Guangyu1,2, WU Yuhou1, and ZHANG Huisen1,2
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    [8] [8] WANG X C, SHEN X T, ZHAO T Q, et al. Tribological properties of SiC-based MCD films synthesized using different carbon sources when sliding against Si3N4[J]. Applied Surface Science, 2016, 369: 448-459.

    [9] [9] PERLE M, BAREISS C, ROSIWAL S M, et al. Generation and oxidation of wear debris in dry running tests of diamond coated SiC bearings[J]. Diamond and Related Materials, 2006, 15(4/5/6/7/8): 749-753.

    [12] [12] TU R, XU T T, LI D F, et al. Morphology and mechanical behavior of diamond films fabricated by IH-MPCVD[J]. RSC Advances, 2018, 8(29): 16061-16068.

    [13] [13] YAN G Y, WU Y H, CRISTEA D, et al. Machining performance of hard-brittle materials by multi-layer micro-nano crystalline diamond coated tools[J]. Results in Physics, 2019, 13: 102303.

    [14] [14] VILA M, AMARAL M, OLIVEIRA F J, et al. Residual stress minimum in nanocrystalline diamond films[J]. Applied Physics Letters, 2006, 89(9): 093109.

    [15] [15] KUO C T, LIN C R, LIEN H M. Origins of the residual stress in CVD diamond films[J]. Thin Solid Films, 1996, 290/291: 254-259.

    [18] [18] ARCHARD J F. Contact and rubbing of flat surfaces[J]. Journal of Applied Physics, 1953, 24(8): 981-988.

    [20] [20] PODGURSKY V, BOGATOV A, YASHIN M, et al. Relation between self-organization and wear mechanisms of diamond films[J]. Entropy, 2018, 20(4): 279.

    [21] [21] PODGURSKY V, BOGATOV A, SOBOLEV S, et al. Effect of nanocrystalli ne diamond films deflection on wear observed in reciprocating sliding tests[J]. Journal of Coating Science and Technology, 2016, 3(3): 109-115.

    [22] [22] SHEN B, LIN Q, CHEN S L, et al. High-rate synthesis of ultra-nanocrystalline diamond in an argon-free hot filament chemical vapor deposition atmosphere for tribological films[J]. Surface and Coatings Technology, 2019, 378: 124999.

    [23] [23] GAYDAYCHUK A, LINNIK S. Tribological and mechanical properties of diamond films synthesized with high methane concentration[J]. International Journal of Refractory Metals and Hard Materials, 2019, 85: 105057.

    [24] [24] CHEN N C, PU L W, SUN F H, et al. Tribological behavior of HFCVD multilayer diamond film on silicon carbide[J]. Surface and Coatings Technology, 2015, 272: 66-71.

    [25] [25] PRABHAKARAN G S, BHATTACHARYA S S, RAO M S R. A comparative study of the mechanical and tribological properties of intermittently and continuously grown multilayer diamond films on RB-SiC[J]. Diamond and Related Materials, 2020, 110: 108140.

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    WANG He, SHEN Jianhui, YAN Guangyu, WU Yuhou, ZHANG Huisen. Tribological Properties of SiC-Based Diamond Films Synthesized with Different Methane Concentrations[J]. Journal of Synthetic Crystals, 2021, 50(11): 2067

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    Paper Information

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    Received: Jun. 30, 2021

    Accepted: --

    Published Online: Feb. 14, 2022

    The Author Email:

    DOI:

    CSTR:32186.14.

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology