研究多步热处理过程中少量 Sc 和 Zr 添加剂对含硅过量的 Al-Mg-Si 合金微观结构的影响

IF 1.1 4区材料科学 Q3 METALLURGY & METALLURGICAL ENGINEERING

Physics of Metals and Metallography Pub Date : 2024-05-08 DOI:10.1134/s0031918x23602573

E. V. Aryshenskii, M. A. Lapshov, D. Yu. Rasposienko, S. V. Konovalov, A. M. Drits, V. V. Makarov

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引用次数: 0

摘要

摘要这项工作致力于研究多步热处理对以 Mg/Si = 0.3 的比例与钪和锆合金化的 Al-Mg-Si 系列合金微观结构形成的影响。为此，我们铸造了不含钪和锆的铝镁硅合金基体，以及添加了这些元素的改性铝镁硅锆合金。AlMgSiScZr 合金的多步热处理包括四个退火步骤：550°C 8 小时 + 440°C 8 小时 + 500°C 0.5 小时 + 180°C 5 小时。通过扫描和透射电子显微镜研究了 AlMgSiScZr 合金在铸造状态以及每一步热处理后的微观结构，而 AlMgSi 合金则研究了铸造状态和最终热处理后的微观结构。在每一步热处理之后，都对所研究合金的显微硬度进行了测量。研究发现，在铸锭冷却过程中，在所研究的合金中形成了 Fe2Mg7Si10Al18 类型的粗金属间化合物，这些金属间化合物在随后的热处理过程中被部分溶解。同时，在含有钪和锆添加剂的合金中，晶间边界上出现了可归因于 (AlSi)3ScZr 或 AlSc2Si2 τ（相）的颗粒。在铸锭冷却过程中，没有发现钪过饱和固溶体间歇性分解的痕迹。在 550°C 下热处理 8 小时 + 在 440°C 下热处理 8 小时，会出现 AlSc2Si2 和 Al5SiZr2 相，但不会形成 (AlSi)3ScZr 纳米颗粒。在 500°C 的温度下加热 30 分钟可使含镁颗粒完全溶解。在最后一步，在所研究的合金中形成了 β"（Mg5Si6）颗粒，而钪对其形成没有显著影响。

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Studying the Effect of Small Additives of Sc and Zr on the Microstructure of Al–Mg–Si Alloy with Excess Silicon during Multi-Step Heat Treatment

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Studying the Effect of Small Additives of Sc and Zr on the Microstructure of Al–Mg–Si Alloy with Excess Silicon during Multi-Step Heat Treatment

Abstract

The work is devoted to the study of the effect of multi-step heat treatment on the formation of the microstructure of the alloy of Al–Mg–Si series, alloyed with scandium and zirconium at the ratio of Mg/Si = 0.3. For this purpose, the base AlMgSi alloy, containing no scandium and zirconium, as well as its modification AlMgSiScZr with additions of these elements were cast. Multi-step heat treatment of AlMgSiScZr alloy consisted of four steps of annealing: at 550°C for 8 h + at 440°C for 8 h + at 500°C for 0.5 h + at 180°C for 5 h. For AlMgSi alloy, it included two steps: at 550°C for 8 h + at 180°C for 5 h. The microstructure of AlMgSiScZr alloy was studied in the cast state, as well as after each step of heat treatment by scanning and transmission electron microscopy, while AlMgSi alloy was studied in the cast state and after the final heat treatment. After each step of heat treatment, the microhardness of the studied alloys was measured. It was found that during cooling of the ingot, in the alloys under consideration coarse intermetallics of Fe₂Mg₇Si₁₀Al₁₈ type were formed, which partially were dissolved during subsequent heat treatment. At the same time, in the alloy with scandium and zirconium additives, particles that can be attributed either to (AlSi)₃ScZr or to the τ (phase) of AlSc₂Si₂ are present at the intergranular boundaries. No traces of intermittent decomposition of the scandium supersaturated solid solution during cooling of the ingot were found. Heat treatment at 550°C for 8 h + at 440°C for 8 h leads to the appearance of a phase that can be both AlSc₂Si₂ and Al₅SiZr₂, while no (AlSi)₃ScZr nanoparticles are formed. Heating at 500°C for 30 min enables complete dissolution of the magnesium-containing particles. At the final step, β" (Mg₅Si₆) particles are formed in the investigated alloys, while scandium has no significant effect on their formation.

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来源期刊

Physics of Metals and Metallography 工程技术-冶金工程

CiteScore

2.00

自引率

25.00%

发文量

108

审稿时长

3 months

期刊介绍： The Physics of Metals and Metallography (Fizika metallov i metallovedenie) was founded in 1955 by the USSR Academy of Sciences. Its scientific profile involves the theory of metals and metal alloys, their electrical and magnetic properties, as well as their structure, phase transformations, and principal mechanical properties. The journal also publishes scientific reviews and papers written by experts involved in fundamental, application, and technological studies. The annual volume of publications amounts to some 250 papers submitted from 100 leading national scientific institutions.