Al2O3/TiC 和 SiAlON 陶瓷的复杂等离子束表面处理技术原理

IF 3.3 Q2 ENGINEERING, MANUFACTURING

Journal of Manufacturing and Materials Processing Pub Date : 2023-11-21 DOI:10.3390/jmmp7060205

S. Grigoriev, M. Volosova, Maxim A. Lyakhovetsky, A. P. Mitrofanov, N. Kolosova, A. Okunkova

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引用次数: 0

摘要

在对烧结切削 Al2O3/TiC 和 SiAlON 陶瓷进行高性能金刚石磨削时，热机械作用会导致沉积的 TiZrN 和 CrAlSiN/DLC 涂层表层缺陷增加。这预先决定了涂层的不连续性和多孔性，并降低了涂层在磨料暴露和摩擦磨损下的有效性。所开发的技术方法基于使用能量为 5 keV 的加速氩原子束进行 "干式 "蚀刻，可高效去除缺陷。与金刚石磨削相比，它能确保去除陶瓷上的缺陷层，并将缺陷指数（单位表面积的缺陷密度乘积）降低几个数量级。涂层的微观结构中没有明显的不连续性和气孔。在机械载荷作用下，涂层可确保在陶瓷和研磨体之间形成稳定的边界抗磨损膜，从而显著提高样品的耐磨性。在 20 分钟的磨料作用下，TiZrN 和 CrAlSiN/DLC 涂层对 Al2O3/TiC 的体积磨损分别减少了 2 倍和 6 倍，对 SiAlON 则分别减少了 5 倍和 23 倍。在 105 次摩擦循环的摩擦磨损下，Al2O3/TiC 两种涂层的体积磨损分别减少了 2-3 倍和 3-4 倍。

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Technological Principles of Complex Plasma-Beam Surface Treatment of Al2O3/TiC and SiAlON Ceramics

Thermomechanical action during high-performance diamond grinding of sintered cutting Al2O3/TiC and SiAlON ceramics leads to increased defectiveness of the surface layer of the deposited TiZrN and CrAlSiN/DLC coatings. It predetermines the discontinuous and porous coatings and reduces its effectiveness under abrasive exposure and fretting wear. The developed technological approach is based on “dry” etching with beams of accelerated argon atoms with an energy of 5 keV for high-performance removal of defects. It ensures the removal of the defective layer on ceramics and reduces the index of defectiveness (the product of defects’ density per unit surface area) by several orders of magnitude, compared with diamond grinding. There are no pronounced discontinuities and pores in the microstructure of coatings. Under mechanical loads, the coatings ensure a stable boundary anti-friction film between the ceramics and counter body that significantly increases the wear resistance of samples. The treatment reduces the volumetric wear under 20 min of abrasive action by 2 and 6 times for TiZrN and CrAlSiN/DLC coatings for Al2O3/TiC and by 5 and 23 times for SiAlON. The volumetric wear under fretting wear at 105 friction cycles is reduced by 2–3 times for both coatings for Al2O3/TiC and by 3–4 times for SiAlON.

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