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不同后处理对AlCrN涂层结构和性能的影响∗
张家敏^1,2,3, 蔡飞^1,2, 王文健⁴, 张世宏^1,2
1.安徽工业大学先进金属材料绿色制备与表面技术教育部重点实验室马鞍山 243000;2.安徽工业大学现代表界面工程研究中心马鞍山 243000;3.安徽工业大学材料科学与工程学院马鞍山 243000;4.中车戚墅堰机车车辆工艺研究所有限公司常州 213011

摘要:

电弧离子镀制备的 AlCrN 涂层表面存在大量的“大颗粒”,导致其具有较高的表面粗糙度,进而降低了涂层的摩擦磨损和切削性能。采用不同后处理方法(如离子刻蚀、湿喷砂、干喷砂和微粒子喷丸) 对电弧镀 AlCrN 涂层表面进行处理,利用 XRD、SEM、OM、摩擦磨损以及切削试验分析不同后处理方式对涂层组织结构、表面形貌、表面粗糙度、摩擦磨损以及切削性能的影响。结果显示:不同后处理方法均可有效清除 AlCrN 涂层表面颗粒,其中湿喷砂、微粒子喷丸和干喷砂对涂层表面颗粒数目去除效果较好,“大颗粒”分别降低了 91. 1%、88. 5%和 86. 9%,离子刻蚀后处理次之,颗粒数目降低了 21. 0%。经处理的 AlCrN 涂层的 XRD 图谱与未处理的涂层相比没有明显变化,均为固溶(Al, Cr)N 相,但其衍射峰均向低角度偏移。经过后处理涂层的摩擦因数相比于未处理的涂层均有不同程度降低,涂层磨损方式为磨粒磨损并伴有少量的氧化磨损。 AlCrN 涂层刀具经过后处理工艺处理后,切削寿命均有不同程度提高,与未处理涂层刀具相比较经微粒子喷丸、干喷砂、离子刻、湿喷砂后处理的涂层刀具切削寿命分别提高了 30%、40%、40%和 60%。

关键词: AlCrN 涂层表面形貌后处理切削性能

DOI：10.11933/j.issn.1007-9289.20210120001

分类号:TG156

基金项目:安徽省自然科学基金(1808085QE131)和清华大学摩擦学国家重点实验室开放基金(SKLTKF18B13)资助项目

Effects of Different Post-treatments on Structures and Properties of AlCrN Coating

Zhang Jiamin^1,2,3, Cai Fei^1,2, Wang Wenjian⁴, Zhang Shihong^1,2

1.Key Laboratory of Advanced Metal Materials Green Preparation and Surface Technology, Ministry of Education, Anhui University of Technology, Ma'anshan 243000 , China;2.Modern Watch Interface Engineering Research Center, Anhui University of Technology, Ma'anshan 243000 , China;3.School of Materials Science and Engineering, Anhui University of Technology, Anhui 243000 , China;4.CRRC Qishuyan institute Co., LTD, Changzhou, Jiangsu 213011 , China

Abstract:

There are number of " micro-particles" on the surface of the arc ion plated AlCrN coatings, which resulted in the high surface roughness, and decreased the friction, wear and cutting performance. In this paper, the AlCrN coatings were treated by different post-treatments including ion etching, wet sandblasting, dry sandblasting, and shot peening. XRD, SEM, OM, friction and wear, and cutting tests were used to examine the effects of post-treatments on phase, surface roughness, friction and wear, and cutting performance. The results showed that these four post-treatment methods could significantly remove the " micro-particles" . Among them, wet sandblasting, shot peening and dry sandblasting had better effect on clearing the " micro-particles" , and the number of " micro- particles" were reduced by 91. 1%, 88. 5% and 86. 9%. While, ion etching could only reduce the " micro-particles" by 21. 0%. The XRD patterns of the AlCrN coatings revealed the solid solution (Al, Cr)N phase, and all the diffraction peaks of the AlCrN coatings shifted to a low angle. The coefficient of friction of the post-treatmented coating reduced as compared with the untreated coating; the wear mechanism of the coatings were abrasive wear with a small amount of oxidative wear. The cutting life of the coated tools after various post-treatments have been improved, and cutting life increased by 30%, 40%, 40% and 60% for the AlCrN coating after shotpeening, dry sandblasting, ion etching and wet sandblasting treatments.

Key words: AlCrN coating surface morphology post-treatments cutting performance