摘要
为研究不同表面处理方式对巴氏合金/45钢配副表面减摩性能的影响,采用热压固化工艺将六方氮化硼封装于表面织构内,制备复合润滑结构表面;在油润滑下进行销-盘磨损试验,使用递归定量分析(Recurrence quantification analysis, RQA)参数划分磨损过程;研究复合润滑结构表面在磨合期和正常磨损期的减摩性能,并与纯织构表面减摩性能进行对比。结果表明:复合润滑结构表面拥有较低摩擦因数和显著减摩效果,其减摩性能优于纯织构表面;相比无织构表面,复合润滑结构表面在磨合期内的平均摩擦因数下降77.9%,在正常磨损期内的平均摩擦因数下降73.5%且磨合期的时长缩减75.0%;较大织构孔径的复合润滑结构表面的减摩效果更好且磨合期更短;纯织构和复合润滑结构表面的减摩效果均在较高速度和载荷下更显著;各试样表面在磨合期的摩擦因数越低,对应进入正常磨损期后就越低。
In order to study the effect of different surface treatment methods on anti-friction performance of Babbitt alloy/45 steel pair, hexagonal boron nitride was encapsulated in the surface texture, and the composite lubrication structure surfaces were prepared.Pin-disk wear tests were carried out under oil-lubrication, and the wear process was divided using recurrence quantification analysis(RQA) parameter.The anti-friction performance of composite lubrication structure surfaces during running in and normal wear was studied, and compared with that of only texture surface.The results show that the composite lubrication structure surfaces have lower friction coefficient and more significant anti-friction performance, whose anti-friction performance is better than only texture surface.Compared with the no texture surface, the average friction coefficient of the composite lubrication structure surfaces decreases by 77.9% in the running-in period and 73.5% in the normal wear period, and the time in running-in period decreases by 75.0%.The composite lubrication structure surfaces with larger texture pore diameter have better anti-friction performance and shorter running-in period.Both only textured surfaces and composite lubrication structure surfaces have more significant anti-friction performance at a higher speed and load.The lower the friction coefficient of various surfaces in the running-in period, the lower the corresponding friction coefficient after entering the normal wear period.
作者
赵欢
周元凯
左雪
ZHAO Huan;ZHOU Yuankai;ZUO Xue(School of Mechanical Engineering,Jiangsu University of Science and Technology,Zhenjiang Jiangsu 212100,China;Jiangsu Provincial Key Laboratory of Advanced Manufacture and Process for Marine Mechanical Equipment,Jiangsu University of Science and Technology,Zhenjiang Jiangsu 212100,China)
出处
《润滑与密封》
CAS
CSCD
北大核心
2022年第10期84-89,共6页
Lubrication Engineering
基金
国家自然科学基金项目(51705216,52005226)
江苏省自然科学基金项目(BK20190917)。
关键词
复合润滑结构
六方氮化硼
表面织构
减摩
油润滑
composite lubrication structure
hexagonal boron nitride
surface texture
anti-friction
oil-lubrication
