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机构地区:[1]江苏石油化工学院机械工程系
出 处:《江苏石油化工学院学报》1998年第3期28-31,共4页Journal of Jiangsu Institute of Petrochemical Technology
摘 要:研究了低温硼-碳-氮-稀土(B-C-N-RE)共渗工艺及共渗层的组织性能,并与硼-碳-氮(B-C-N)共渗工艺及共渗层的组织性能进行了比较,结果表明,低温共渗的硼化物层由FeB、Fe2B、Fe3(C,B)等相组成,硼化物层的前沿无过渡区,FeB和Fe2B生长过程中排挤出来的碳没有发生远程扩散,而是就近形成Fe3(C,B)等形式的硼化物。稀土加入量适当时,具有明显的催渗作用;与B-C-N共渗相比,B-C-N-RE共渗层的耐磨性和耐蚀性明显提高。对B-C-N-RE共渗的机理及稀土元素的作用作了初步的探讨。In this paper the process,the structure and properties of low temperature powder B-C-N-RE co-cementation are studied and compared with the boro-carbonitriding.The results show that the layer consists of such phases as FeB,Fe 2B and Fe 3(C,B),and no transitional zone exists between the layer and the substrate.The carbon atoms repelled during the formation of FeB and Fe 2B could not diffuse for long distance because of the low treating temperature.They formed Fe 3(C,B) within the co-cementation layer.An significant catalytic effect of the rare earth elements can be obtained when proper amount of rare earth is applied.Both wear and corrosion resistances of the B-C-N-RE co-cementation layer are improved significantly in comparison with that of boro-carbonitriding.The mechanism of B-C-N-RE co-cementation and the effects of rare earth elements are discussed.
分 类 号:TG156.8[金属学及工艺—热处理]
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