Phase field modeling of multiple dendrite growth of Al-Si binary alloy under isothermal solidification 被引量：6

Phase field modeling of multiple dendrite growth of Al-Si binary alloy under isothermal solidification

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摘要 Phase field method offers the prospect of being able to perform realistic numerical experiments on dendrite growth in metallic systems.In this study,the growth process of multiple dendrites in Al-2-mole-%-Si binary alloy under isothermal solidification was simulated using phase field model.The simulation results showed the impingement of arbitrarily oriented crystals and the competitive growth among the grains during solidification.With the increase of growing time,the grains begin to coalesce and impinge the adjacent grains.When the dendrites start to impinge,the dendrite growth is obviously inhibited. Phase field method offers the prospect of being able to perform realistic numerical experiments on dendrite growth in metallic systems. In this study, the growth process of multiple dendrites in AI-2-mole-%-Si binary alloy under isothermal solidification was simulated using phase field model. The simulation results showed the impingement of arbitrarily oriented crystals and the competitive growth among the grains during solidification. With the increase of growing time, the grains begin to coalesce and impinge the adjacent grains. When the dendrites start to impinge, the dendrite growth is obviously inhibited.

作者 Sun Qiang Zhang Yutuo Cui Haixia Wang Chengzhi

机构地区 Shenyang Ligong University

出处《China Foundry》 SCIE CAS 2008年第4期265-267,共3页 中国铸造（英文版）

基金 supported by the Doctor Foundational Research Project in Shenyang Ligong University(Serial Number:0010).

关键词铝合金铸件铸造金属合金 phase field model multiple dendrite growth binary alloy isothermal solidification

分类号 TG146.21 [金属学及工艺—金属材料] TP391.9 [自动化与计算机技术—计算机应用技术]

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参考文献11

1William J. Boettinger,James A. Warren.The phase-field method: simulation of alloy dendritic solidification during recalescence[J].Metallurgical and Materials Transactions A.1996(3)
2Kobayashi R.Medeling and numerical simulations of dendritic crystal growth[].Physica D Nonlinear Phenomena.1993
3Wheeler A A,Murrary B T,Schaefer R J.Computation of dendrites using a phase field model[].Physica D Nonlinear Phenomena.1993
4Wheeler A A,Boettinger W J,Mcfadden G B.Phase-field Model for Isothermal Transitions in Binary Alloy[].Physical Review E Statistical Nonlinear and Soft Matter Physics.1992
5Warren J A,Boettinger W J.Prediction of dendritic growth and microsegregation patterns in a binary alloy using the phase-field method[].Acta Metallurgica et Materialia.1995
6Boettinger W J,Warren J A.The Phase-field method:simulation of alloy dendritic solidification during recalescence[].Metallurgical and Materials Transactions.1996
7R. Kobayashi,,J. A. Warren,W. Craig Carter.A Continuum Model of Grain Boundaries[].Physica D Nonlinear Phenomena.2000
8Nestler B,Wheeler A A.A multi-phase-field model of eutectic and peritectic alloys:numerical simulation of growth struc- tures[].Physica D Nonlinear Phenomena.2000
9Suzuki T,Ode M,Kim SG,Kim W T.Phase-field model of dendritic growth[].Journal of Crystal Growth.2002
10Karma A,Rappel W J.Phase-field method for computationally efficient modeling of solidification with arbitrary interface kinetics[].Physical Review E Statistical Nonlinear and Soft Matter Physics.1996

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1李新中,郭景杰,苏彦庆,吴士平,傅恒志.过冷定向凝固Ti-44Al合金微观组织的相场法模拟[J].特种铸造及有色合金,2008,28(S1):93-95. 被引量：3
2李刚,刘新田.相场模型及其在凝固组织模拟中的研究进展[J].铸造技术,2005,26(10):974-976. 被引量：5
3李俊杰,王锦程,杨根仓.相场法模拟界面能各向异性对枝晶生长行为的影响[J].自然科学进展,2005,15(11):1312-1317. 被引量：5
4肖旭霖,李慧.苹果汁冷冻浓缩工艺的研究[J].农业工程学报,2006,22(1):192-194. 被引量：22
5李梅娥,肖志英,杨根仓,周尧和.Anisotropic growth of multigrain in equiaxial solidification simulated with the phase field method[J].Chinese Physics B,2006,15(1):219-223. 被引量：2
6张国伟,侯华,程军.Phase field model for strong anisotropy of kinetic and highly anisotropic interfacial energy[J].中国有色金属学会会刊：英文版,2006,16(A02):307-313. 被引量：7
7王洁玉,陈长乐,陈志.相场法模拟Ni-Cu合金枝晶生长中过冷度的影响[J].铸造技术,2007,28(4):538-540. 被引量：4
8HALPERIN B 1,HOHENBERG P C,MA S. Renormalization-group methods for critical dynamics: I. Recursion relations andeffects of energy conservation[J]. Physical Review, 1974? B 10(1): 139-153.
9PROVATAS N, GREENWOOD M, ATHREYA B, et al. Multi-scale modeling of solidification: phase-field methods to adaptivemesh refinement [J]. International Journal of Modern Physics,2005,B 19(31): 4 525-4 565.
10LAN C W, LIU C C, HSU C M. An adaptive finite volume methodfor incompressible heat flow problems in solidification[J]. Journalof Computational Physics, 2002,178(2) : 464-497.

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2Zhang Yutuo,Zhang Wanning,Wang Tie,Fan Liyan,Wang Chengzhi.Phase field modeling of dendritic coarsening during isothermal solidification[J].China Foundry,2011,8(3):313-315. 被引量：1
3袁训锋,丁雨田.强制对流作用下多枝晶生长的相场法研究[J].材料工程,2011,39(10):5-10. 被引量：2
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3袁训锋,刘宝盈,李春,周春生,丁雨田.HCP材料强界面能各向异性的相场模型(英文)[J].Transactions of Nonferrous Metals Society of China,2014,24(9):2911-2919. 被引量：4
4高芳.基于数学模型的CdZnTe合金晶体生长过程影响因素分析[J].铸造技术,2014,35(11):2480-2482.
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4DOU Lei,YUAN ZhangFu,LI JianQiang,LI Jing,WANG XiaoQiang.Surface tension of molten Al-Si alloy at temperatures ranging from 923 to 1123 K[J].Chinese Science Bulletin,2008,53(17):2593-2598. 被引量：12
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7编辑部.Fujitsu Lifebook P7230 轻薄新浪潮[J].数码世界,2007,0(3):42-42.
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10冯力,王智平,朱昌盛,路阳.Phase-field model of isothermal solidification with multiple grain growth[J].Chinese Physics B,2009,18(5):1985-1990. 被引量：3

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Phase field modeling of multiple dendrite growth of Al-Si binary alloy under isothermal solidification 被引量：6

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