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Tribological Properties of Diamond-Like Carbon Films in Low and High Moist Air

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Abstract

Diamond-like carbon (DLC) film was deposited on Si wafer by a plasma CVD deposition system using benzene. Tribological properties of the DLC film were evaluated using a ball-on-disk tribo-meter in low (RH 17∼20 %) and high humidity (RH 90∼95 %) conditions in air. The effect of sliding speed (4.2 mm/s to 25 mm/s) and load (1.06 N to 3.08 N) on friction and wear was investigated. The friction behavior of the DLC film was obviously different in low and high humidity. When tested under low humidity conditions, the friction coefficient decreased significantly with increasing speed, and increased with load. However, under high humidity conditions, the friction coefficient increased with the speed and decreased with increasing load. The wear of the DLC film was little influenced by the sliding speed, normal load and humidity; a level of 10-8 mm3/Nm could be obtained in all tests. The formation of a uniform transfer layer would be the main factor which controlled the friction coefficient of the DLC films. Unlike the friction, the wear resistance of the DLC film is not so easy to discuss and may be affected mainly by the tribo-chemical reaction in all the test conditions.

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Authors and Affiliations

  1. Japan Fine Ceramics Center, 305-8565, Japan

    Wei Zhang & Koichiro Wazumi

  2. Research Center for Advanced Carbon Material, National Institute of Advanced Industrial Science and Technology, 305-8565, Japan

    Akihiro Tanaka & Yoshinori Koga

Authors
  1. Wei Zhang
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  2. Akihiro Tanaka
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  3. Koichiro Wazumi
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  4. Yoshinori Koga
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Zhang, W., Tanaka, A., Wazumi, K. et al. Tribological Properties of Diamond-Like Carbon Films in Low and High Moist Air. Tribology Letters 14, 123–130 (2003). https://doi.org/10.1023/A:1021708421353

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