Numerical simulation of recalescence of 3-dimensional isothermal solidification for binary alloy using phase-field approach 被引量：8

Numerical simulation of recalescence of 3-dimensional isothermal solidification for binary alloy using phase-field approach

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摘要 A accelerated arithmetic algorithm of the dynamic computing regions was designed,and 3-dimensional numerical simulation of isothermal solidification for a binary alloy was implemented.The dendritic growth and the recalescence of Ni-Cu binary alloy during the solidification at different cooling rates were investigated.The effects of cooling rate on dendritic patterns and microsegregation patterns were studied.The computed results indicate that,with the increment of the cooling rate,the dendritic growth velocity increases,both the main branch and side-branches become slender,the secondary dendrite arm spacing becomes smaller,the inadequate solute diffusion in solid aggravates,and the severity of microsegregation ahead of interface aggravates.At a higher cooling rate,the binary alloy presents recalescence;while the cooling rate is small,no recalescence occurs. A accelerated arithmetic algorithm of the dynamic computing regions was designed, and 3-dimensional numerical simulation of isothermal solidification for a binary alloy was implemented. The dendritic growth and the recalescence of Ni-Cu binary alloy during the solidification at different cooling rates were investigated. The effects of cooling rate on dendritic patterns and microsegregation patterns were studied. The computed results indicate that, with the increment of the cooling rate, the dendritic growth velocity increases, both the main branch and side-branches become slender, the secondary dendrite arm spacing becomes smaller, the inadequate solute diffusion in solid aggravates, and the severity of microsegregation ahead of interface aggravates. At a higher cooling rate, the binary alloy presents recalescence; while the cooling rate is small, no recalescence occurs.

作者朱昌盛肖荣振王智平冯力

机构地区 Computer Aided Designed Center State Key Laboratory of Gansu New Non-ferrous Metal Materials

出处《中国有色金属学会会刊：英文版》 EI CSCD 2009年第5期1286-1293,共8页 Transactions of Nonferrous Metals Society of China

基金 Project(10964004)supported by the National Natural Science Foundation of China Project(20070231001)supported by Research Fund for the Doctoral Program of Higher Education of China Project(096RJZA104)supported by the Natural Science Foundation of Gansu Province,China Project(SB14200801)supported by the Doctoral Fund of Lanzhou University of Technology

关键词二元合金等温凝固数值模拟三维冷却速度二次枝晶间距微观形态算法设计 phase-field approach microsegregation dendritic growth 3-dimensional simulation recalescence

分类号 TG111.4 [金属学及工艺—物理冶金]

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中国有色金属学会会刊：英文版

2009年第5期

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