干摩擦条件下3Cr13涂层的磨损寿命研究

材料研究学报

2009, Vol. 23

Issue (4): 357-362

研究论文

本期目录 | 过刊浏览

干摩擦条件下3Cr13涂层的磨损寿命研究

濮春欢¹; 徐滨士¹; 王海斗¹ ; 朴钟宇^1;2

1.装甲兵工程学院装备再制造技术国防科技重点实验室北京 100072
2.燕山大学机械工程学院秦皇岛 066004

The wear life research on 3Cr13 coating under dry friction

PU Chunhuan ¹; XU Binshi ¹; WANG Haidou ¹; PIAO Zhongyu ^1;2

1.National Key Lab for Remanufacturing ; Academy of Armored Forces Engineering; Beijing 100072
2.Collage of Mechanical Engineering YanShan University; Qinhuangdao 066004

引用本文:

濮春欢徐滨士王海斗朴钟宇. 干摩擦条件下3Cr13涂层的磨损寿命研究[J]. 材料研究学报, 2009, 23(4): 357-362.
. The wear life research on 3Cr13 coating under dry friction[J]. Chin J Mater Res, 2009, 23(4): 357-362.

全文: PDF(1093 KB)

摘要:

在MM200摩擦磨损试验机上对高速电弧喷涂3Cr13涂层进行了干摩擦条件下的磨损寿命试验, 通过恒定应力加速模型分别建立了载荷、涂层厚度、摩擦副转速与3Cr13涂层磨损寿命的关系图, 并采用多元回归分析建立了预测3Cr13涂层磨损寿命的模型, 对影响因素进行了相关度分析. 结果表明：载荷的增大引起涂层内分层失效, 涂层厚度的减小则引起涂层整层剥落, 摩擦副的转速主要影响摩擦副间的犁沟和微切削程度. 影响磨损寿命大小的因素依次顺序为: 涂层厚度、载荷和摩擦副转速.

关键词 ：金属材料, 3Cr13涂层, 干摩擦, 磨损寿命, 加速磨损, 多元回归

Abstract：

The MM200 friction tester was used to investigate the wear life of 3Cr13 coating prepared by high velocity arc spraying technique under dry friction. By use of constant–stress accelerated model, the relationship curves between the wear life and the three condition factors (load, coating thickness, rotational speed) were established respectively. The preliminary model of the wear life prediction of 3Cr13 coating was
constituted by multiple regression analysis, and correlation analysis of the influencing factors were carried
out at the same time. The results indicated that the cohesive delamination of coating was caused by the
increasing load. The adhesive delamination of coating was a result of decreasing of coating thickness. The
degree of furrow and micro–cutting was determined by rotational speed. The plain sequence of factors,
affecting wear life of the coating was the coating thickness, load, rotational speed.

Key words： Surface coating;Dry friction;Accelerated wear;Multiple regression;Wear life

收稿日期: 2008-12-23

ZTFLH:

TH117

基金资助:

国家自然科学基金50735006和国家八六三计划2007AA04Z408资助项目.

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