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Research on Grain Refinement in Hypoeutectic Al-Si Alloy during Solidification under an Alternating Electric Current Pulse

机译：交流电流脉冲下凝固过程中红细胞晶体合金的晶粒细化研究

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Experiments on transient directional solidification were carried out to study the columnar to equiaxed transition (CET) in Al-7Si alloy without and with an alternating electric current pulse (AECP). Without AECP, the macrostructure consists of typical columnar and equiaxed zones, separated by a near horizontal plane. As the AECP is applied during solidification, an additional fine equiaxed zone (FEZ) occurs in the as-cast macrostructure. From measured temperature profiles, cooling rate and temperature gradient are determined. It is found that CET occurs for a critical value of the cooling rate, which is observed to be about 0.14 K·s−1 in the present investigation. Furthermore, the macrostructural observation with mold for embedding the mesh plate demonstrates that the major factor responsible for the formation of fine equiaxed grains is the detachment of crystal nuclei from the upper contact surface and the lateral wall. The detachment is in turn ascribed to electric current-associated free energy change (ΔGe)-induced the driving force F.

机译：进行了瞬态方向凝固的实验，以研究Al-7Si合金中的等轴转变（CET），没有交流电流脉冲（AECP）。如果没有AECP，宏观结构包括典型的柱状和等轴区域，由近水平平面分开。随着在凝固过程中施加AECP的作用，在铸造宏观结构中发生额外的精细等轴（FEZ）。根据测量的温度曲线，确定冷却速率和温度梯度。发现CET发生在本研究中观察到的冷却速率的临界值，这被观察到为约0.14k·s-1。此外，用用于嵌入网板的模具的宏观结构观察表明，负责细胞晶粒的形成的主要因素是从上接触表面和侧壁的晶体分离。拆卸反过来归因于电流相关的自由能量变化（Δge） - 引起驱动力F.

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Ning Li; Limin Zhang; Rong Zhang; Pengfei Yin; Hui Xing; Hongjing Wu;
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年度 2019
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2. Al−Cu−Mg合金凝固过程中低熔点共晶体含量与其热裂敏感性之间的关系 [J] . 韩加强, 王俊升, 张明山, 中国有色金属学报（英文版） . 2020,第009期
3. Relevance of electrical current distribution to the forced flow and grain refinement in solidified Al-Si hypoeutectic alloy [J] . Y. H. Zhang, Y. Y. Xu, C. Y. Ye, Scientific reports. . 2018,第1期

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4. Comparative Study on the Grain Refinement of Al-Si Alloy Solidified under the Impact of Pulsed Electric Current and Travelling Magnetic Field [J] . Yunhu Zhang, Xiangru Cheng, Honggang Zhong, Metals . 2016,第7期

机译：脉冲电流和行进磁场影响下凝固的Al-Si合金晶粒细化的比较研究
5. Grain Refinement and Eutectic Solidification Mechanism of Al-Si Hypoeutectic Alloy in Centrifugal Casting with Electromagnetic Field [J] . Zhiqing Zhang, Qiulin Li, Wei Liu, Key Engineering Materials . 2007,第Pt4期

机译：电磁场离心铸造Al-Si亚共晶合金的细化和共晶凝固机理
6. Grain Refinement and Eutectic Solidification Mechanism of Al-Si Hypoeutectic Alloy in Centrifugal Casting with Electromagnetic Field [C] . Zhiqing Zhang, Qiulin Li, Wei Liu, Asian Pacific Conference on Fracture and Strength . 2007

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7. Grain Refinement of High Alloy Stainless Steels in Sand and Directionally Solidified Castings [D] . Arvola, Dustin Alan. 2018

机译：砂和定向凝固铸件中高合金不锈钢的晶粒细化
8. Relevance of electrical current distribution to the forced flow and grain refinement in solidified Al-Si hypoeutectic alloy [O] . Y. H. Zhang, Y. Y. Xu, C. Y. Ye, -1

机译：电流分布与凝固的Al-Si亚共晶合金中强制流和晶粒细化的相关性
9. Comparative Study on the Grain Refinement of Al-Si Alloy Solidified under the Impact of Pulsed Electric Current and Travelling Magnetic Field [O] . Yunhu Zhang, Xiangru Cheng, Honggang Zhong, 2016

机译：脉冲电流与行波磁场冲击下al-si合金晶粒细化的对比研究
10. The influence of a microgravity environment on the dendritic morphology during directional solidification of hypoeutectic Al-Si alloys [R] . Grugel, Richard N. 1993

机译：微重力环境对亚共晶al-si合金定向凝固过程中树枝状形貌的影响

Research on Grain Refinement in Hypoeutectic Al-Si Alloy during Solidification under an Alternating Electric Current Pulse

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