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This paper reports that DLC (diamond like carbon)/Ti and DLC films were prepared by
using pulsed laser arc deposition. R-ray diffraction, Auger electron spectroscopy,
Raman spectroscopy, atomic force microscopy, nanoindenter, spectroscopic
ellipsometer, surface profiler and micro-tribometer were employed to study the
structure and tribological properties of DLC/Ti and DLC films. The results show that
DLC/Ti film, with $I(D)/I(G)$ 0.28 and corresponding to 76{\%} sp$^{3}$ content
calculated by Raman spectroscopy, uniform chemical composition along depth
direction, 98 at{\%} content of carbon, hardness 8.2 GPa and Young's modulus 110.5
GPa, compressive stress 6.579 GPa, thickness 46~nm, coefficient of friction 0.08,
and critical load 95mN, exhibits excellent mechanical and tribological properties. 相似文献
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相对湿度对材料表面粘附力影响的研究 总被引:1,自引:0,他引:1
利用自制微摩擦及粘附力测试装置考察了在微载荷条件下,相对湿度对Si(100)材料表面粘附力的影响,分析了在大气环境中水分子的毛细作用力和范德华力对粘附力的贡献,并以BET吸附模型为基础推导出考虑湿度影响的粘附力计算公式.结果表明:在微载荷条件下,相对湿度对材料表面的粘附力影响十分显著,随着相对湿度升高粘附力增加,特别是相对湿度RH在40%~80%之间时,粘附力变化最为显著;当相对湿度RH小于20%时,范德华力大于水的毛细作用力且占主导地位;当相对湿度RH大于20%后,水分子的毛细作用力不断增加,同时范德华力因水膜的存在而降低,水的毛细作用力占主导地位. 相似文献
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