Effect of matrix structure on mechanical properties and dry rolling-sliding wear performance of alloyed ductile iron 被引量：1

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摘要 The influence of matrix structure on mechanical properties and dry rolling-sliding wear performance of alloyed ductile iron was examined. Four kinds of alloyed ductile irons with different matrix structures were produced through an adequate balance of alloying elements. Tensile tests and dry rolling-sliding wear tests were carried out at room temperature. The results show that yield strength and ultimate tensile strength increase, while elongation decreases until the matrix fully becomes pearlite. The lower matrix hardness results in more graphite emerging on the contact surface, which yields the decrease in friction coefficient. Besides, the wear rate decreases with the increase in matrix hardness among alloyed ductile irons except that with full pearlite matrix, the wear performance of which seems to be deteriorated due to poor fracture toughness. The main wear mechanism is delamination under an air-cooling condition. Based on the results of mechanical and wear tests, ductile iron with about 80% pearlite exhibits better wear performance as well as relatively reasonable mechanical properties.

作者 Hua Zhang Yan-xin Wu Qiu-ju Li Xin Hong

机构地区 State Key Laboratory of Advanced Special Steel and Shanghai Key Laboratory of Advanced Ferrometallurgy and School of Materials Science and Engineering Jiangsu Yonggang Group Co. Institute of Engineering Technology

出处《Journal of Iron and Steel Research(International)》 SCIE EI CAS CSCD 2019年第8期888-897,共10页 钢铁研究学报（英文版）

基金 Funding was provided by National Natural Science Foundation of China (Grant No. U1760109).

关键词 DUCTILE iron Microstructure Mechanical property WEAR DELAMINATION

分类号 TF [冶金工程]

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