Mechanism in Solidification of a Ternary Nickel Based Alloy  

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作  者:田密 成博 TIAN Mi;CHENG Bo(School of Aeronautical Manufacturing Industry,Chengdu Aeronautical Polytechnic,Chengdu 610100,China;College of Mechanical Engineering,North University of China,Taiyuan 030051,China)

机构地区:[1]School of Aeronautical Manufacturing Industry,Chengdu Aeronautical Polytechnic,Chengdu 610100,China [2]College of Mechanical Engineering,North University of China,Taiyuan 030051,China

出  处:《Journal of Wuhan University of Technology(Materials Science)》2024年第4期1018-1024,共7页武汉理工大学学报(材料科学英文版)

基  金:Funded by the Natural Science Foundation of Shanxi Province(No.202203021211093)。

摘  要:The experiment employed the use of melt purification and cyclic superheating technique to achieve maximum undercooling of Ni65Cu31Co4 alloy at 300K.Simultaneously,high-speed photography techniques were used to capture the process of alloy liquid phase interface migration,and analyzed the relationship between the shape characteristics of the front end of alloy solidification and undercooling.The microstructure of the alloy was observed through metallographic microscopy,and the micro-morphological characteristics and evolution of the rapidly solidified microstructure were systematically studied.It is found that the grain refinement mechanism of Ni-Cu-Co ternary alloy is similar to that of Ni-Cu binary alloy.Grain refinement at low undercooling is caused by intense dendritic remelting,while grain refinement at high undercooling is attributed to recrystallization,driven by the stress and plastic strain accumulated from the interaction of liquid flow and primary dendrites caused by rapid solidification.It also shows that the addition of the third element Co plays a significant role in solidification rate and re-ignition effect.

关 键 词:UNDERCOOLING RECALESCENCE Ni-Cu-Co ternary alloy grain refinement RECRYSTALLIZATION 

分 类 号:TG146.15[一般工业技术—材料科学与工程]

 

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