基于纳米晶的低温离子渗硫层油润滑条件下摩擦磨损性能

巴德玛; 孙晓峰; 邱骥; 李新

引用本文:	巴德玛,孙晓峰,邱骥,李新.基于纳米晶的低温离子渗硫层油润滑条件下摩擦磨损性能[J].中国表面工程,2017,30(6):140~148
	BA De-ma,SUN Xiao-feng,QIU Ji,LI Xin.Tribological Behavior of Low Temperature Ion Sulphurizing Layer Based on Nanocrystalline Under Oil Lubrication[J].China Surface Engineering,2017,30(6):140~148

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基于纳米晶的低温离子渗硫层油润滑条件下摩擦磨损性能
巴德玛¹, 孙晓峰¹, 邱骥¹, 李新²
1.装甲兵工程学院装备维修与再制造工程系,北京 100072;2.北京特种车辆研究所,北京 100072

摘要:

利用预压力滚压技术在堆焊修复层表面制备纳米晶层，用低温离子渗硫技术在纳米晶层表面制备FeS固体润滑膜。利用CETR-3型多功能摩擦磨损试验机考察油润滑条件下堆焊层表面纳米晶/FeS复合层的摩擦磨损性能。采用SEM、EDS、XRD和XPS对摩擦磨损前后的硫化层微观组织结构进行分析。结果表明：与原始低温离子渗硫层相比，基于纳米晶的渗硫层厚度增加了40%，硫化层更为密实，基于纳米晶的低温离子渗硫层摩擦因数明显降低，磨损量降低40%左右，承载能力明显提高。耐磨减摩性能提高是纳米晶层作用的结果，基于纳米晶的硫化层硫化物含量较高，FeS相所占比例较高，高硬度的纳米晶层为表面润滑层起到良好的支撑，对于减摩性能的提高起到积极作用。

关键词: 表面纳米化 FeS 固体润滑层摩擦因数磨损

DOI：10.11933/j.issn.1007-9289.20170615002

分类号:

基金项目:国家自然科学基金（51105376）

Tribological Behavior of Low Temperature Ion Sulphurizing Layer Based on Nanocrystalline Under Oil Lubrication

BA De-ma¹, SUN Xiao-feng¹, QIU Ji¹, LI Xin²

1.Department of Repair and Remanufacture Engineering, Academy of Armored Forces Engineering, Beijing 100072;2.Beijing Special Vehicle Research Institute, Beijing 100072

Abstract:

Surface microstructure of the surfacing layer was optimized by refining the coarse grains to nanocrystalline by pre-loading rolling treatment (PLRT). The solid lubrication film containing sulfide was prepared on the surface nanocrystallizated surfacing layer with the low temperature ion sulphurizing technology. The tribological behavior of the sulfide layer based on the nanocrystalline layer was investigated under oil lubrication by using CETR-3 tribo-meter. The microstructural features of the sulphurizing layers were analyzed by SEM, EDS, XPS, and XRD analysis techniques. Results show that the sulphurizing layers based on surface nanocrystallized samples are denser than those of the untreated samples, and the thickness of sulphurizing layers is improved by 40%. The friction coefficients and wear volume loss of the sulphurizing layers based on surface nanocrystallized samples are lower than those of the untreated samples. The wear volume are reduced approximately by 40%, the load-carrying ability are seriously improved. The advantages realized in the tribology properties of the sulfide layer based on the nanocrystalline samples, which may be attributed to the champion performance of the nanocrystalline surface layer. The content of sulfide in surface nanocrystalline sample and the proportion of FeS phase are evidently higher. The nanocrystalline surface layer with high hardness plays the effective bearing to the sulfide layer, which play a positive role to improve the tribology properties.

Key words: surface nanocrystallization FeS solid lubrication film friction coefficient wear