Effect of magnetic stirring on AlFeSi intermetalics of an A356 aluminum alloy

Ó. Bustos, Ricardo Leiva, C. Sanchez
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Abstract

The effect of the application of forced convection during the continuous solidification of A356 aluminum alloy over microstructural parameters of AlFeSi phases has been presented in this work. The investigation has been made on the fact that as an alloy solidifies under the action of a rotating magnetic field; a non-dendritic casting structure will be obtained. The Al-Si alloy has been studied using magnetic stirring equipment with permanent magnets. This device has allowed the study of the rotational speed (degree of stirring) effect on the micro- and macro- solidification structure. Different analyses and tests have been carried out, such as micro- and mac -ro-structural analysis. The results have shown that magnetic stirring affects the cooling curves, expanding the solidification range. Microstructural evolution of the alloys has also been observed, from a 100% dendritic structure to a mature rosette type structure, in addition to a notable grain size decrease, which may improve the materi al’s mechanical behavior. The results show that all the microstructural parameters of the AlFeSi phases (quan -tity, size, shape factor, particle area, and aspect ratio) decrease when stirring is applied to the alloy during its solidification.
磁搅拌对A356铝合金AlFeSi金属间化合物的影响
本文研究了在A356铝合金连续凝固过程中施加强制对流对AlFeSi相组织参数的影响。研究了在旋转磁场作用下作为合金的凝固现象;得到非枝晶铸造组织。采用永磁体磁搅拌装置对铝硅合金进行了研究。该装置使研究转速(搅拌程度)对微观和宏观凝固组织的影响成为可能。进行了不同的分析和试验,如微观和宏观结构分析。结果表明,磁搅拌影响冷却曲线,扩大了凝固范围。合金的显微组织演变也被观察到,从100%的枝晶组织到成熟的玫瑰型组织,除了明显的晶粒尺寸减小,这可能改善了材料的力学行为。结果表明:在合金凝固过程中,搅拌使AlFeSi相的数量、尺寸、形状因子、颗粒面积、长径比等显微组织参数均减小;
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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