微坑分布位置对复合润滑结构缸套摩擦磨损性能的影响规律

金梅; 韩晓光; 沈岩; 李承娣; 杜凤鸣; 徐久军

引用本文:	金梅,韩晓光,沈岩,李承娣,杜凤鸣,徐久军.微坑分布位置对复合润滑结构缸套摩擦磨损性能的影响规律[J].中国表面工程,2017,30(6):158~166
	JIN Mei,HAN Xiao-guang,SHEN Yan,LI Cheng-di,DU Feng-ming,XU Jiu-jun.Influence of Surface Texture Distribution Position on Tribological Characteristics of FeNi Plated Cylinder Liner with a Composite Lubrication Structure[J].China Surface Engineering,2017,30(6):158~166

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微坑分布位置对复合润滑结构缸套摩擦磨损性能的影响规律
金梅¹, 韩晓光², 沈岩¹, 李承娣², 杜凤鸣¹, 徐久军²
1.大连海事大学轮机工程学院,辽宁大连 116026;2.大连海事大学船机修造工程交通行业重点实验室,辽宁大连 116026

摘要:

采用电火花加工方法在FeNi合金镀铁缸套试样表面的止点、中点、全程位置刻蚀微坑织构，采用球磨法对微坑填充固体润滑剂MoS₂以制备复合润滑结构缸套。采用对置往复式摩擦磨损试验机，研究微坑分布位置对复合润滑结构缸套摩擦磨损性能的影响规律。采用SEM和EDS研究配副的磨损形貌。结果表明：复合润滑结构缸套能提高承载性能、降低摩擦因数，但不一定都能提高缸套的磨损性能和抗拉缸性能。唯有微坑分布在止点的复合润滑结构缸套相比未处理缸套，表现出良好的减摩耐磨和抗拉缸性能，摩擦因数降低了4.97%~6.26%，对磨环磨损量减少了58.3%，拉缸时间延长了10倍。随着往复运动的进行，微坑中的MoS₂逐渐向缸套表面转移，改善了止点区域的润滑性能，良好保护了摩擦界面。

关键词: 镀铁缸套 MoS₂ 微坑分布摩擦磨损

DOI：10.11933/j.issn.1007-9289.20170609001

分类号:

基金项目:中央高校基本科研业务费专项资金（3132017009）；辽宁省自然科学基金（20170540083）；辽宁省教育厅基金（L2015065）

Influence of Surface Texture Distribution Position on Tribological Characteristics of FeNi Plated Cylinder Liner with a Composite Lubrication Structure

JIN Mei¹, HAN Xiao-guang², SHEN Yan¹, LI Cheng-di², DU Feng-ming¹, XU Jiu-jun²

1.Marine Engineering College, Dalian Maritime University, Dalian 116026, Liaoning;2.Key Laboratory of Ship-Machinery Maintenance & Manufacture, Dalian Maritime University, Dalian 116026, Liaoning

Abstract:

The surface texture was etched at the dead point, middle point and whole position on the surface of cylinder liner specimens by electrical discharge machining (EDM). The solid lubrication MoS₂ was filled with the micro dimples by ball milling. The influence of the micro dimple distribution position on the tribological characteristics of the cylinder liner was studied by using a contraposition reciprocating test rig. The wear morphology was tested and analyzed by SEM and EDS. The results show that the cylinder liner with a composite lubrication structure can reduce the friction coefficient; however, not all the wear and anti-scuffing properties can be improved. Only the mico dimples on the dead point of the cylinder liner with the composite lubrication structure shows the good friction reduction, wear resistance and anti-scuffing properties, compared with the untreated cylinder liner. The friction coefficient and the wear loss of the piston ring decrease 4.97%-6.26% and 58.3%, respectively. The scuffing time is prolonged about 10 times. With sliding, MoS₂ in the micro dimplesgradually shifts to the surface of the cylinder liner, thus improving the lubrication performance of the dead point and protecting the friction interface.

Key words: FeNi alloy plated cylinder liner MoS₂ surface texture distribution position friction and wear