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Numerical Simulation and Process Optimization of Directional Solidification of Nb Containing High Silicon Steel

机译：高硅钢含铌定向凝固的数值模拟与工艺优化

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Fe-6.5%Si alloy is an excellent soft magnetic material. However, the industrial production of this sheet was difficult, due to its room temperature brittleness. In order to improve its deformation performance, the directional solidification and inhibitor of Nb were investigated in this study. Rod samples of Φ6.8 mm×100 mm were used both for modeling and experiments. ProCAST-finite element analysis was employed for the modeling with a temperature gradient of 1150K/cm (from 1450°C to 300°C) for directional solidification and the drawing velocities of 10,35,60, and 100μm/s. Calculations were carried out on the concerning temperature gradient, solidification rate and grain growth. The results showed that small amount of Nb, with optimized drawing velocity of 60μm/s was helpful for the homogeneity of grain size, which could improve the ductility for subsequent deformation processes.

机译：Fe-6.5％Si合金是一种优良的软磁材料。然而，由于其室温脆性，该片的工业生产是困难的。为了改善其变形性能，本研究对Nb的定向凝固和抑制剂进行了研究。 Φ6.8mm×100 mm的棒状样品用于建模和实验。 ProCAST有限元分析用于模型化，温度梯度为1150K / cm（从1450°C到300°C），用于定向凝固，拉伸速度为10、35、60和100μm/ s。对有关的温度梯度，凝固速率和晶粒长大进行了计算。结果表明，少量的Nb，优化的拉拔速度为60μm/ s，有助于晶粒尺寸的均匀性，从而提高后续变形过程的延展性。

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《Chinese materials congress》|2013年|31-37|共7页
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Kun Yang; Feng Ye; Yongfeng Liang; Junpin Lin;
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High silicon steel; Directional solidification; ProCAST simulation; Nb containing;

机译：高硅钢;定向凝固; ProCAST仿真;含铌;

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专利

1. Numerical Simulation and Process Optimization of Directional Solidification of Nb Containing High Silicon Steel [J] . Kun Yang, Feng Ye, Yongfeng Liang, Materials science forum . 2013,第期

机译：高硅钢含铌定向凝固的数值模拟与工艺优化
2. Optimization of power consumption on silicon directional solidification system by using numerical simulations [J] . Liguo Chen, Bing Dai Journal of Crystal Growth . 2012,第1期

机译：利用数值模拟优化硅定向凝固系统的功耗
3. Numerical Simulation of the Process of Preparation of Multisilicon by the Directional Solidification Method [J] . Smirnov S. A., Kalaev V. V. Technical physics . 2020,第7期

机译：定向凝固法制备多物质制备方法的数值模拟
4. Numerical Simulation and Process Optimization of Directional Solidification of Nb Containing High Silicon Steel [C] . Kun Yang, Feng Ye, Yongfeng Liang, Chinese materials congress . 2013

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5. Numerical modeling of multicrystalline silicon growth in a Directional Solidification system (DSS) [D] . Benson, Adebukola O. 2007

机译：定向凝固系统（DSS）中多晶硅生长的数值模型
6. Numerical Simulation and Optimization of Directional Solidification Process of Single Crystal Superalloy Casting [O] . Hang Zhang, Qingyan Xu, Baicheng Liu 2014

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7. Numerical Simulation of Multi-Crystalline Silicon Crystal Growth Using a Macro–Micro Coupled Method during the Directional Solidification Process [O] . Qingqing Lian, Weina Liu, Ri Li, 2016

机译：作者：张莹莹，王汝传，闫澍旺，物理学报aCTa pHYsICa sINICa定向凝固过程中宏观微耦合法制备多晶硅晶体的数值模拟
8. Directionally Solidified Aluminum - 7 wt% Silicon Alloys: Comparison of Earth and International Space Station Processed Samples. [R] . D. Poirier R. Erdman R. N. Grugel R. S. Rajamure S. Tewari 2012

机译：定向凝固铝 - 7 wt％硅合金：地球和国际空间站处理样品的比较。

Numerical Simulation and Process Optimization of Directional Solidification of Nb Containing High Silicon Steel

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