Effect of the melt cooling rate on the structural-phase state of the Al – Si alloy doped with metals

Physics and Chemistry of Materials Treatment Pub Date : 1900-01-01 DOI:10.30791/0015-3214-2023-3-63-71

V. Shepelevich, O. Gusakova, S. V. Husakova

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Abstract

The paper presents the results of a study of the microstructure, elemental and phase compositions of the eutectic alloy Al – 12.5 wt. % Si – 0.8 wt. % Mg – 0.4 wt. % Mn – 0.7 wt. % Fe – 0.9 wt. % Ni – 1.8 wt. % Cu. A comparison of the microstructure of the alloy obtained at melt cooling rates of 102 and 105 K/s is made. It is shown that an increase in the melt cooling rate leads to refinement of structural components, a decrease in the volume fraction of primary α-Al dendrites, an increase in the volume fraction of a mixture of eutectic silicon and aluminum, and a decrease in the silicon concentration in the interdendritic space from 23 to 13 wt. %. Using X-ray spectrum microanalysis and X-ray diffraction analysis, it was revealed that inclusions of intermetallic compounds Mg5Si6, Al17(FeMn)Si2, Al3(CuNi)2 are formed at melt cooling rates of 102 and 105 K/s. A mechanism of the formation of a layered microstructure of a eutectic alloy is proposed. An explanation for the formation of X-ray amorphous nanosized particles in the foil layer adjacent to the mold is given.

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熔体冷却速率对掺杂金属铝硅合金组织相态的影响

本文介绍了Al - 12.5 wt. % Si - 0.8 wt. % Mg - 0.4 wt. % Mn - 0.7 wt. % Fe - 0.9 wt. % Ni - 1.8 wt. % Cu共晶合金的显微组织、元素和相组成的研究结果。对熔体冷却速度为102和105 K/s时合金的显微组织进行了比较。结果表明，随着熔体冷却速度的增加，结构成分的细化，初生α-Al枝晶的体积分数降低，共晶硅和铝混合物的体积分数增加，枝晶间硅的浓度从23%降低到13%。通过x射线显微分析和x射线衍射分析发现，熔体冷却速度为102和105 K/s时，形成了金属间化合物Mg5Si6、Al17(FeMn)Si2、Al3(CuNi)2的夹杂物。提出了共晶合金层状组织形成的机理。对靠近模具的箔层中x射线非晶纳米颗粒的形成进行了解释。

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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Physics and Chemistry of Materials Treatment

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