Zr as an Alternative Grain Refiner in the Novel AlSi5Cu2Mg Alloy

Metals Pub Date : 2024-05-15 DOI:10.3390/met14050581

D. Bolibruchová, M. Matejka, L. Širanec, Martin Švec

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Abstract

Al-Si-Cu-Mg alloys are among the most significant types of aluminum alloys, accounting for 85–90% of all castings used in the automotive sector. These alloys are used, for example, in the manufacturing of engine blocks and cylinder heads due to their excellent specific strength (ratio of strength to specific weight) and superior castability and thermal conductivity. This study investigated the effect of using Zr as an alternative grain refiner in the novel AlSi5Cu2Mg cylinder head alloy. The microstructure of this alloy could not be refined via common Al-Ti-B grain refiners due to its specifically designed chemical composition, which limits the maximum Ti content to 0.03 wt.%. The results showed that the addition of Zr via the AlZr20 master alloy led to a gradual increase in the solidus temperature and to the grain refinement of the microstructure with the addition of as little as 0.05 wt.% Zr. The addition of more Zr (0.10, 0.15, and 0.20 wt.%) led to a gradual grain refinement effect for the alloy. The presence of Zr in the AlSi5Cu2Mg alloy was reflected in the formation of Zr-rich intermetallic phases with acicular morphology. Such phases acted as potent nucleants for the α-Al grain.

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Zr 作为新型 AlSi5Cu2Mg 合金中的替代晶粒细化剂

铝-硅-铜-镁合金是最重要的铝合金类型之一，占汽车行业所用铸件总量的 85-90%。例如，这些合金因其出色的比强度（强度与比重之比）、优异的可铸性和导热性，被用于制造发动机缸体和汽缸盖。本研究调查了在新型 AlSi5Cu2Mg 气缸盖合金中使用 Zr 作为替代晶粒细化剂的效果。这种合金的微观结构无法通过普通的 Al-Ti-B 晶粒细化剂进行细化，因为其化学成分是专门设计的，最大钛含量限制在 0.03 wt.%。结果表明，通过 AlZr20 母合金添加 Zr 可使凝固温度逐渐升高，并在 Zr 添加量低至 0.05 wt.% 时细化微观结构。添加更多的 Zr（0.10、0.15 和 0.20 wt.%）会使合金的晶粒逐渐细化。AlSi5Cu2Mg 合金中 Zr 的存在体现在形成了具有针状形态的富 Zr 金属间相。这些相是 α-Al 晶粒的有力成核物。

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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Metals

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