The Effect of Maximum Normal Impact Load, Absorbed Energy, and Contact Impulse, on the Impact Crater Volume/Depth of DLC Coating

Mohd Fadzli Bin Abdollah; Yuto Yamaguchi; Tsuyoshi Akao; Naruhiko Inayoshi; Takayuki Tokoroyama; Noritsugu Umehara

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The Effect of Maximum Normal Impact Load, Absorbed Energy, and Contact Impulse, on the Impact Crater Volume/Depth of DLC Coating

机译：最大法向冲击负荷，吸收的能量和接触脉冲对DLC涂层冲击坑的体积/深度的影响

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In this work, the influence of maximum normal impact load, absorbed energy, and contact impulse, on the impact crater volume/depth of a hydrogen-free diamond-like carbon coating (commonly known as DLC) has been studied. The tungsten high speed steel (SKH2) specimen discs were coated with DLC using the Physical Vapour Deposition (PVD) method. The 90° impact test was performed using a self-developed impact tester, where the DLC coated disc was impacted by a chromium molybdenum steel (SCM420) pin, at 400 impact cycles, under lubricated conditions. The results show that the most crucial factor, affecting the impact crater volume/depth of DLC coating under impact, is the maximum normal impact load.

机译：在这项工作中，已经研究了最大法向冲击载荷，吸收的能量和接触脉冲对无氢类金刚石碳涂层（通常称为DLC）的冲击坑体积/深度的影响。使用物理气相沉积（PVD）方法在DLC上涂覆钨高速钢（SKH2）样品盘。使用自行开发的冲击测试仪进行90°冲击测试，其中DLC涂层圆盘在润滑条件下以400次冲击循环受到铬钼钢（SCM420）销的冲击。结果表明，影响冲击下DLC涂层的冲击坑体积/深度的最关键因素是最大法向冲击载荷。

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《Tribology Online》 |2011年第6期|共8页
作者
Mohd Fadzli Bin Abdollah; Yuto Yamaguchi; Tsuyoshi Akao; Naruhiko Inayoshi; Takayuki Tokoroyama; Noritsugu Umehara;
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The Effect of Maximum Normal Impact Load, Absorbed Energy, and Contact Impulse, on the Impact Crater Volume/Depth of DLC Coating

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