摘要
表面改性是摩擦学研究中的一个重要领域,而喷熔法则是表面工程中得到广泛应用的表面改性技术,为了揭示喷熔层具有优异耐磨性能的原因,通过扫描电子显微镜观察和X射线能谱分析,以及无润滑滑动摩擦试验,研究了含15%(wt)WC耐磨相的FNiWC15镍基自熔合金粉末喷熔层的显微组织、显微硬度、合金元素分布及其耐磨性,结果表明,FNiWC15喷熔层的组织结构是在树枝状镍基固溶体基体上,弥散分布着微细的WC颗粒,含硅量高和含铬、钨、镍量都低的白色多边形化合物颗粒,以及含铬量高和含硅量低的无定形灰色化合物颗粒;这种喷熔层的耐磨性能是52100钢的26倍。研究结果在推动表面改性技术的发展和扩大喷熔工艺在工程实际中的应用方面都具有指导和启迪作用。
Surface modification is one of important research fields of tribology,and spray-welding is a widely used surface modification technique in surface engineering.In order to revealthe reasons of excellent wear-resistance of the Ni-base FNiWC15 spray-welding coating , this paperinvestigated its microstructure,microhardness, distribution of alloy elements and wear- resistancethrough SEM observation,X-ray energy dispersive spectroscopy analysis and sliding wear test in drycondition . The results showed that its microstructure consists of dendrite matrix of Ni-base solidsolution+dispersive fine WC particles+polygonal compound particles with high Si and low Cr,W,Ni contents +compound particles with high Cr and low Si contents. The wear-resistance ofFNiWC15 spray-welding coating was 26 times that of 52100 steel.This research is of an importantmcaning for promoting the development of surface modification techniques and enlarging theapplication of spray- welding technique in industries.
出处
《摩擦学学报》
EI
CAS
CSCD
北大核心
1995年第2期165-170,共6页
Tribology
基金
清华大学摩擦学国家重点实验室基金
关键词
表面改性
喷熔层
显微组织
耐磨性
surface modification , spray-welding coating microstructure,wear-resistance
