Study on Solidification Structure of Wheel Steel Round Billet Using FE-CA Coupling Model

Cailiang Jing; Xinhua Wang; Min Jiang

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Study on Solidification Structure of Wheel Steel Round Billet Using FE-CA Coupling Model

机译：基于FE-CA耦合模型的轮钢圆坯凝固组织研究

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Solidification structure of wheel steel round billet during the continuous casting process was simulated using FE (Finite Element)-CA (Cellular Automaton) coupling model. Variation of thermo-physical parameters during solidification was considered based on a thermodynamic database. Meanwhile effect of electromagnetic stirring (EMS) was reflected by increasing both the thermal conductivity and crystal formation rate in liquid phase. It was found that the cooling curves and solidification structure calculated by this model agreed well with that in experiments. Optimum casting temperature range was discussed based on the simulation results and actual conditions in plant. An optirnized casting superheat will be no more than 25 °C in order to obtain at least 50% equiaxed crystal ratio, while the degree of segregation in the billet is less than 1.05 correspondingly.

机译：利用有限元-有限元-元胞自动机耦合模型对轮钢坯的连铸过程凝固组织进行了模拟。基于热力学数据库，考虑了凝固过程中热物理参数的变化。同时，电磁搅拌（EMS）的效果通过提高液相的导热率和晶体形成速率来体现。结果表明，该模型计算出的冷却曲线和凝固组织与实验结果吻合良好。根据模拟结果和工厂实际情况，讨论了最佳铸造温度范围。为了获得至少50％的等轴晶比，优化的铸造过热度将不超过25°C，而钢坯中的偏析度相应地小于1.05。

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《Steel Research International》 |2011年第10期|共7页
作者
Cailiang Jing; Xinhua Wang; Min Jiang;
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正文语种 eng
中图分类金属学与金属工艺;
关键词
cellular automaton (CA); electromagnetic stirring (EMS); equiaxed crystal ratio; high-speed wheel steel; segregation; solidification structure;

机译：元胞自动机;电磁搅拌;等晶比;高速轮钢;偏析;凝固组织;

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专利

1. Study on Solidification Structure of Wheel Steel Round Billet Using FE-CA Coupling Model [J] . Cailiang Jing, Xinhua Wang, Min Jiang Steel Research International . 2011,第10期

机译：基于FE-CA耦合模型的轮钢圆坯凝固组织研究
2. Modeling Solidification Microstructures of Steel Round Billets Obtained by Continuous Casting [J] . Giovanni Straffelini, Luca Lutterotti, Matteo Tonolli, ISIJ international . 2011,第9期

机译：连铸获得的钢圆坯凝固组织模型
3. Study of Solidification of Continuously Cast Steel Round Billets Using Numerical Modelling [J] . J. Pieprzyca, K. Michalek, L. Socha, Archives of Metallurgy and Materials . 2016,第1期

机译：数值模型研究连铸钢坯的凝固
4. Study on Assessment of Solidification Structure and Solidification Process in High-Carbon Steel Billet Continuous Casting [C] . Chenwei DU, Yuan JI, Xiaofeng ZHANG Iron and Steel Technology Conference . 2015

机译：高碳钢坯连铸凝固结构评估及凝固过程的研究
5. Mathematical modeling of solidification in continuous cast low carbon steel billets. [D] . Putta, Ramesh. 2007

机译：连铸低碳钢坯凝固的数学模型。
6. 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
7. Modeling Solidification Microstructures of Steel Round Billets Obtained by Continuous Casting [O] . Giovanni Straffelini, Luca Lutterotti, Matteo Tonolli, 2011

机译：连铸钢圆坯凝固微观结构
8. High-Temperature Properties of Four Low-Alloy Steels for Jet-Engine Turbine Wheels Part 2. A Survey of the Relations Between Microstructure and Elevated-Temperature Properties of Four Low-Alloyed Steels at 700° to 1200°F [R] . ADRON I. RUSH, JAMES W. FREEMAN 1955

机译：喷气发动机汽轮机用四种低合金钢的高温性能第2部分：4种低合金钢在700°~1200°F的微观结构与高温性能关系的研究

Study on Solidification Structure of Wheel Steel Round Billet Using FE-CA Coupling Model

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