| 受迫流动下的枝晶生长相场法模拟研究 |
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| 引用本文: | 朱昌盛,王军伟,王智平,冯力.受迫流动下的枝晶生长相场法模拟研究[J].物理学报,2010,59(10):7417-7423. |
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| 作者姓名: | 朱昌盛 王军伟 王智平 冯力 |
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| 作者单位: | 1. 兰州理工大学甘当省有色金属新材料省部共建国家重点实验室,兰州730050;兰州理工大学CAD中心,兰州730050
2. 兰州理工大学甘当省有色金属新材料省部共建国家重点实验室,兰州,730050 |
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| 基金项目: | 国家自然科学基金(批准号:10964004)、教育部博士点基金(批准号:20070231001)、甘肃省自然科学基金(批准号:096RJZA104)和甘肃省高等学校研究生导师科研计划(批准号:0903-03)资助的课题. |
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| 摘 要: | 基于耦合流场和热噪声的相场模型及合理高效的三维动态求解域加速算法,定量模拟了在受迫流动下枝晶的非对称生长及流速对迎流、背流两侧的温度分布和层流层分布的影响.计算结果表明,受迫流动使迎流、背流两侧温度的分布与层流层分布呈现不对称状态,导致迎流侧与背流侧的过冷度不同,而熔体施加于枝晶界面前沿迎流侧的力还不足以抑制过冷度的作用,结果造成枝晶迎流方向优先生长,从而产生倾向于散热方向的倾斜,同时,由于迎流侧的实际过冷度大于背流侧,有利于促进迎流一侧枝晶生长速度以及稳定侧向分枝生长,从而导致了侧向分枝的非对称生长.随
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| 关 键 词: | 相场方法 受迫流动 枝晶生长 数值模拟 |
| 收稿时间: | 2009-10-09 |
Denedritic growth in forced flow using the phase-field simulation |
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| Zhu Chang-Sheng,Wang Jun-Wei,Wang Zhi-Ping,Feng Li.Denedritic growth in forced flow using the phase-field simulation[J].Acta Physica Sinica,2010,59(10):7417-7423. |
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| Authors: | Zhu Chang-Sheng Wang Jun-Wei Wang Zhi-Ping Feng Li |
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| Institution: | State Key Laboratory of Gansu Advanced Non-ferrous Metal Materials, Lanzhou University of Technology, Lanzhou 730050, China; CAD Center, Lanzhou University of Technology, Lanzhou 730050, China;State Key Laboratory of Gansu Advanced Non-ferrous Metal Materials, Lanzhou University of Technology, Lanzhou 730050, China;State Key Laboratory of Gansu Advanced Non-ferrous Metal Materials, Lanzhou University of Technology, Lanzhou 730050, China;State Key Laboratory of Gansu Advanced Non-ferrous Metal Materials, Lanzhou University of Technology, Lanzhou 730050, China |
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| Abstract: | The assymmetrical dendritic growth and the effect of flow velocity on the temperature distribution and laminar flow boundary layer of both facing-flow side and against-flow side has been investigated numerically based on the phase-field model which incorporates both fluid flow and thermal noise, as well as reasonably high efficiency 3DAADCR. The computed results indicate that, the forced flow causes the dissymmetry of the distribution of the temperature distribution and laminar flow boundary layer of both facing-flow side and against-flow side, leading to the different undercooling on either sides, as a result, the dendritic growth towards the flow and inclination relative to the dissipating heat direction appear. At the same time, the undercooling of facing-flow side is greater than that of against-flow side, which is helpful to accelerate dendritic growth rate and makes the sidebranching steady growth, accordingly, resulting in assymmetrical sidebranching growth. With the increase of flow velocity, the greater the inclination, and the more obvious the assymmetrical degree. |
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| Keywords: | phase-field method force flow dendritic growth numerical simulation |
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