标题:Microstructure and wear properties of in situ multiple carbides reinforced Fe based surfacecomposite coating produced by laser cladding
作者:X. H. Wang;M. Zhang;B. S. Du;S. Y. Qu;Z. D. Zou
作者机构:[Wang, X.H] Key Laboratory of Liquid Structure and Heredity of Materials, Ministry of Education, Shandong University, Jinan 250061, China, Institute o 更多
通讯作者:Wang, X H
通讯作者地址:[Wang, XH]Shandong Univ, Key Lab Liquid Struct & Hered Mat, Minist Educ, Jinan 250061, Peoples R China.
来源:Materials Science and Technology: MST: A publication of the Institute of Metals
出版年:2010
卷:26
期:8
页码:935-939
DOI:10.1179/026708309X12459430509094
关键词:TiC+δ-(Ti;V)C multiple carbides;Laser cladding;Fe based composite coating
摘要:In situ multiple carbide of TiCzd-(Ti,V)C reinforced Fe based surface composite coating was produced by laser cladding melting a precursor mixture of graphite, ferrotitanium (Fe–Ti) and ferrovanadium (Fe–V) alloy powders on AISI 1045 steel substrate. The microstructure and wear properties of the composite coatings were investigated by scanning electron microscopy and Xray diffraction, as well as dry sliding wear tester. The results showed that the surface composite coating consisted of in situ TiC+δ-(Ti,V)C carbides and a-Fe matrix. TiC+δ-(Ti,V)C carbides with cubic or radial dendrites shape were synthesised during laser clad processing, and the carbide particles uniformly dispersed in the matrix. d-(Ti,V)C is carbide with V dissolved in the TiC structure. The introduction of ferrovanadium leaded to reduce the size of carbide particles. The multiple carbides of TiC+δ-(Ti,V)C created a higher microhardness and more excellent wear resistance than TiC on its own would under dry sliding wear test condition.
收录类别:EI;SCOPUS;SCIE
WOS核心被引频次:3
Scopus被引频次:4
资源类型:期刊论文
原文链接:https://www.scopus.com/inward/record.uri?eid=2-s2.0-77956391362&doi=10.1179%2f026708309X12459430509094&partnerID=40&md5=4ac27b4c862f077703cbc3bdec031006
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