A Zn–38Al–3.5Cu–1.2Mg composite reinforced with nano-SiCp was fabricated via stirring-assisted ultrasonic vibration. To im-prove the abrasive resistance of the Zn–38Al–3.5Cu–1.2Mg/SiCp composite, several stabilization treatments with distinct solid solutions and aging temperatures were designed. The results indicated that the optimal stabilization treatment for the Zn–38Al–3.5Cu–1.2Mg/SiCp compos-ite comprised solution treatment at 380℃ for 6 h and aging at 170℃ for 48 h. The stabilization treatment led to the formation of dispersive and homogeneous nano-SiCp. During the friction wear condition, the nano-SiCp limited the microstructure evolution from the hard α(Al,Zn) phase to the soft β(Al,Zn) phase. Moreover, the increased amount of nano-SiCp improved the grain dimension and contributed to the composite ab-rasive resistance. Furthermore, the stabilization treatment suppressed the crack initiation and propagation in the friction wear process, thereby improving the abrasive resistance of the Zn–38Al–3.5Cu–1.2Mg/SiCp composite.

Sheng Liu;Qing Yuan;Yutong Sima;Chenxi Liu;Fang Han;Wenwei Qiao

The State Key Laboratory of Refractories and Metallurgy,Key Laboratory for Ferrous Metallurgy and Resources Utilization of Ministry of Education,Wuhan University of Science and Technology,Wuhan 430081,China;Jiangsu Huaneng Cable Company Limited,Gaoyou 225613,China;Wuhan Heavy Industry Casting&Forging Co.Ltd.,China State Shipbuilding Corporation Limited,Wuhan 430080,China

矿物冶金与材料学报

[1]Sheng Liu;Qing Yuan;Yutong Sima;Chenxi Liu;Fang Han;Wenwei Qiao-.Wear behavior of Zn–38Al–3.5Cu–1.2Mg/SiCp composite under different stabilization treatments)[J].矿物冶金与材料学报,2022(06):1270-1279

38Al,rasive

Wear,behavior,5Cu,2Mg,SiCp,composite,under,different,stabilization,treatments,reinforced,nano,was,fabricated,via,stirring,assisted,ultrasonic,vibration,To,abrasive,resistance,several,distinct,solid,solutions,aging,temperatures,were,designed,results,indicated,that,optimal,comprised,led,formation,dispersive,homogeneous,During,friction,wear,condition,limited,microstructure,evolution,from,hard,phase,soft,Moreover,increased,amount,improved,grain,dimension,contributed,Furthermore,suppressed,crack,initiation,propagation,process,thereby,improving

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