Abrasion of Steel by Diamondlike Carbon Coatings

Materials: Book of Abstracts Pub Date : 2000-11-05 DOI:10.1115/imece2000-2680

S. Harris

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Abstract

Thin ceramic coatings can increase the fatigue lifetime of bearings and gears, possibly by polishing their counterparts and reducing stresses from asperities. Thus, a coating’s ability to polish or abrade may determine its usefulness. Yet there has been little work examining factors which control the abrasiveness of such coatings. We have analyzed the abrasiveness of diamondlike carbon and boron carbide coatings against steel for this study. We find an extremely steep dependence of abrasiveness on hardness. We show that coating roughness with horizontal features on the nanometer-scale is strongly correlated with abrasiveness, while roughness with horizontal features on the micron-scale is not correlated with abrasiveness. The nano-scale—but not the micro-scale—structure is quickly obliterated by sliding against steel, explaining the drastic reduction with time in the abrasiveness of the coating that we observe. We derive quantitative scaling relationships that show how the time dependence of the abrasion rate varies with important parameters of sliding wear, and we use these relationships to predict abrasion kinetics for new experiments. Detailed modeling of the stresses present during abrasion leaves some important questions unanswered.

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类金刚石碳涂层对钢的磨损

薄陶瓷涂层可以增加轴承和齿轮的疲劳寿命，可能是通过抛光它们的对应物和减少来自凸起的应力。因此，涂层的抛光或研磨能力可能决定其用途。然而，很少有人研究控制这种涂层耐磨性的因素。本研究分析了类金刚石碳涂层和碳化硼涂层对钢的磨耗性。我们发现磨耗性与硬度的关系极为密切。研究表明，纳米尺度上具有水平特征的涂层粗糙度与磨耗性密切相关，而微米尺度上具有水平特征的涂层粗糙度与磨耗性不相关。纳米尺度(而非微观尺度)的结构会在与钢的摩擦中迅速消失，这就解释了我们所观察到的涂层磨耗性随着时间的推移而急剧下降的原因。我们导出了定量的尺度关系，显示了磨损率的时间依赖性如何随滑动磨损的重要参数而变化，并且我们使用这些关系来预测新实验的磨损动力学。对磨损过程中存在的应力的详细建模留下了一些重要的问题没有得到解答。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Materials: Book of Abstracts

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