Formation mechanisms of low-friction tribo-layers on arc-evaporated TiC{sub}(1-x)N{sub}x hard coatings

M. Rebelo de Figueiredo; J. Neidhardt; R. Kaindl; A. Reiter; R. Tessadri; C. Mitterer

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Formation mechanisms of low-friction tribo-layers on arc-evaporated TiC{sub}(1-x)N{sub}x hard coatings

机译：电弧蒸发TiC {sub}（1-x）N {sub} x硬质涂层上低摩擦摩擦层的形成机理

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A detailed correlation of the tribological performance of arc-evaporated TiC{sub}(1-x)N{sub}x coatings with testing temperature, atmosphere as well as variation in load and sliding velocity is presented in this paper. The low-friction behavior in combination with its mechanical integrity are the reasons for the extensive industrial application of TiC{sub}(1-x)N{sub}x over the last decades. Still the tribo-mechanisms behind this performance are not yet completely understood. The present study adds further understanding, as the low-friction behavior degrades at elevated temperatures and dry or inert environments, which is related to the different constitution of the tribo-layer formed as investigated by Raman spectroscopy. Surprisingly, the wear rate of the coatings does not correlate with the coefficient of friction indicating the presence of different wear regimes.

机译：本文详细介绍了电弧蒸发的TiC {sub}（1-x）N {sub} x涂层的摩擦学性能与测试温度，气氛以及载荷和滑动速度变化之间的关系。低摩擦性能及其机械完整性是TiC {sub}（1-x）N {sub} x在过去几十年中得到广泛工业应用的原因。仍然没有完全了解这种性能背后的摩擦机制。本研究增加了进一步的理解，因为低摩擦行为在高温和干燥或惰性环境下会降低，这与拉曼光谱研究形成的摩擦层的不同组成有关。令人惊讶地，涂层的磨损速率与表明存在不同磨损方式的摩擦系数不相关。

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来源
《Wear: an International Journal on the Science and Technology of Friction, Lubrication and Wear》 |2008年第4期|共8页
作者
M. Rebelo de Figueiredo; J. Neidhardt; R. Kaindl; A. Reiter; R. Tessadri; C. Mitterer;
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正文语种 eng
中图分类机械摩擦、磨损与润滑;
关键词
TiCN coatings; Low-friction mechanisms; Raman micro-spectroscopy; Ball-on-disc sliding; Ambient-dependent wear mechanisms;

机译：TiCN涂层;低摩擦机理;拉曼显微光谱;圆盘滑动;与环境有关的磨损机理;

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1. Formation mechanisms of low-friction tribo-layers on arc-evaporated TiC{sub}(1-x)N{sub}x hard coatings [J] . M. Rebelo de Figueiredo, J. Neidhardt, R. Kaindl, Wear: an International Journal on the Science and Technology of Friction, Lubrication and Wear . 2008,第3a4期

机译：电弧蒸发TiC {sub}（1-x）N {sub} x硬质涂层上低摩擦摩擦层的形成机理
2. Nanoparticle based and sputtered WS_2 low-friction coatings - Differences and similarities with respect to friction mechanisms and tribofilm formation [J] . Gustavsson F., Svahn F., Bexell U., Surface & Coatings Technology . 2013,第Null期

机译：纳米颗粒和溅射的WS_2低摩擦涂层-摩擦机理和摩擦膜形成方面的异同
3. CO addition in low-pressure chemical vapour deposition of medium-temperature TiC_xN_(1-x) based hard coatings [J] . Czettl C., Mitterer C., Mühle U., Surface & Coatings Technology . 2011,第7期

机译：在中温TiC_xN_（1-x）基硬质涂层的低压化学气相沉积中添加CO
4. Formation of diffusion titanium coatings from liquid metal media solutions on hard alloys WC-Co and TiC-WC-Co [C] . E E Bobylyov International Conference on Applied Physics, Information Technologies and Engineering . 2020

机译：在硬质合金WC-Co和TiC-WC-CO上的液态金属介质溶液中形成扩散钛涂层
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6. Computational and Experimental Investigation of Micro-Hardness and Wear Resistance of Ni-Based Alloy and TiC Composite Coating Obtained by Laser Cladding [O] . Guofu Lian, Hao Zhang, Yang Zhang, 2019

机译：激光熔覆获得的镍基合金和TiC复合涂层的显微硬度和耐磨性的计算和实验研究
7. Tribology Mechanisms in Low-Friction Hardbanding Coatings. [O] . Høgsand Øystein Hurtig 2013

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Formation mechanisms of low-friction tribo-layers on arc-evaporated TiC{sub}(1-x)N{sub}x hard coatings

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