An Inverse Model to Determine the Heat Transfer Coefficient and its Evolution with Time during Solidification of Light Alloys

M. S. Dargusch; A. Hamasaiid; G. Dour

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An Inverse Model to Determine the Heat Transfer Coefficient and its Evolution with Time during Solidification of Light Alloys

机译：确定轻合金凝固过程中传热系数及其随时间演变的逆模型

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Infra-red probes linked to pyrometric chains and thermocouple arrays have been used to accurately determine both casting and die surface temperatures during the solidification of an aluminium A380 alloy and the magnesium alloy AZ91D. An inverse model was then used to accurately determine the heat flux densities and interfacial heat transfer coefficients and the rapid evolution of these values with time during high pressure die casting of these alloys.

机译：连接到高温链和热电偶阵列的红外探头已用于在铝A380合金和镁合金AZ91D凝固过程中准确确定铸件和模具表面温度。然后使用逆模型来精确确定这些合金的高压压铸过程中的热通量密度和界面传热系数以及这些值随时间的快速变化。

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《International journal of nonlinear sciences and numerical simulation》 |2008年第3期|共8页
作者
M. S. Dargusch; A. Hamasaiid; G. Dour;
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原文格式 PDF
正文语种 eng
中图分类数值分析;
关键词
Inverse model; Heat transfer coefficient; Solidification; Light Alloys;

机译：逆模型传热系数固溶轻合金;

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1. 液态Ca70Mg30合金快速凝固过程中纳米团簇结构形成演变特性模拟 [J] . 周丽丽, 刘让苏, 田泽安中国有色金属学报（英文版） . 2013,第008期
2. An Inverse Model to Determine the Heat Transfer Coefficient and its Evolution with Time during Solidification of Light Alloys [J] . M. S. Dargusch, A. Hamasaiid, G. Dour International journal of nonlinear sciences and numerical simulation . 2008,第3期

机译：确定轻合金凝固过程中传热系数及其随时间演变的逆模型
3. Modelled heat transfer coefficients for Al-7 wt-%Si alloy castings unidirectionally solidified horizontally and vertically downwards [J] . W. D. Griffiths Materials Science and Technology: MST: A publication of the Institute of Metals . 2000,第3期

机译：Al-7 wt％Si合金铸件水平和垂直向下单向凝固的模型化传热系数
4. ESTIMATION AND VALIDATION OF INTERFACIAL HEAT TRANSFER COEFFICIENT DURING SOLIDIFICATION OF SPHERICAL SHAPED ALUMINUM ALLOY (AL 6061) CASTING USING INVERSE CONTROL VOLUME TECHNIQUE [J] . Gowsalya L., Velraj R., Rajaraman R., Frontiers in Heat and Mass Transfer . 2019,第0期

机译：利用逆控制体积技术估算球形凝固铝合金（AL 6061）凝固过程中的界面传热系数并进行验证
5. A unique inverse algorithm to determine heat transfer coefficients during the post-extrusion quenching of aluminum alloy [C] . Pen-Chung Chen, Deborah A. Kaminski, Robert W. Messler National Heat Transfer Conference . 2001

机译：一种独特的逆算法，用于确定铝合金后挤出淬火期间的传热系数
6. MODELING TEMPERATURE AND SURFACE HEAT TRANSFER COEFFICIENT IN BEEF CARCASS COOLING USING FINITE ELEMENT TECHNIQUE (FAT LAYER THICKNESS, LEAST SQUARES ESTIMATION, WEIGHT, PROCESSING, TIME DATA). [D] . POTLURI, PRAKASH LAL. 1985

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7. Modeling diffusion-governed solidification of ternary alloys – Part 1: Coupling solidification kinetics with thermodynamics [O] . M. Wu, J. Li, A. Ludwig, -1

机译：三元合金扩散控制的凝固建模–第1部分：将凝固动力学与热力学耦合
8. An inverse model to determine the heat transfer coefficient and its evolution with time during solidification of light alloys [O] . Dargusch M. S., Hamasaiid A., Dour G. 2008

机译：确定轻合金凝固过程中传热系数及其随时间变化的逆模型
9. An experimental approach to determine the heat transfer coefficient in directional solidification furnaces [R] . Banan, Mohsen, Gray, Ross T., Wilcox, William R. 1992

机译：确定定向凝固炉传热系数的实验方法

An Inverse Model to Determine the Heat Transfer Coefficient and its Evolution with Time during Solidification of Light Alloys

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