通过添加新型富 La 稀土晶粒细化剂细化次共晶 Al-7Si 合金的机制

Wanwu Ding, Mei Xu, Lumin Gou, Lingxia Li, Juan Ma, Jiazhi An, Xuefeng Lu, Xiaochun Liu, Xiaochun Li
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摘要

细化浇铸的次共晶铝硅合金的晶粒大小是改善其机械性能的一项成熟技术。这项工作基于新型 La 衍射晶粒细化器的开发,即 Al-3Ti-4.35La 衍射晶粒细化器、Al-3Ti-4.35La 的晶粒细化效率非常高,可将 1.46 mm 的晶粒细化至 ~ 0.1 mm(细化剂的重量百分比为 0.2),从而将拉伸强度、屈服强度、伸长率和硬度从 154.3 MPa、64.5 MP、5.83 pct 和 54.8 HV 分别提高到 178.3 MPa(提高了 15.6 pct)、77.5 MPa(提高了 20.2 pct)、12.02 pct(提高了 106.0 pct)和 58.4 HV(提高了 6.6 pct)。原位形成的 Ti2Al20La 相在凝固过程中充当了 α-Al 的晶核。痕量 Si 原子和 La 原子在界面上的偏析表明它们的化学亲和力相对较低,这与第一原理计算结果一致。本研究的结果为通过构建稀土晶粒细化器实现 Al-7Si 合金中相当程度的晶粒细化提供了一种创新方法。
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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Refinement Mechanism of the Hypoeutectic Al–7Si Alloy by Adding a Novel La-Rich Rare-Earth Grain Refiner

Refining the grain size of the as-casted hypoeutectic Al–Si alloys is an established technique for improving their mechanical properties. This work is based on the development of a novel La-riched grain refiner, i.e., Al–3Ti–4.35La, which exhibited remarkable efficiency for grain refinement from 1.46 mm into ~ 0.1 mm (with 0.2 wt pct of the refiner), increasing both tensile strength, yield strength, elongation and hardness from 154.3 MPa, 64.5 MP, 5.83 pct, and 54.8 HV to 178.3 MPa (an enhancement of 15.6 pct), 77.5 MPa(an enhancement of 20.2 pct), 12.02 pct (an enhancement of 106.0 pct), and 58.4 HV (an increase of 6.6 pct), respectively. The in situ formation of the Ti2Al20La phase served as the nucleus for α-Al during solidification. The segregation of trace Si and La atoms at the interface indicates their chemical affinity with a relatively lower energy configuration, which is consistent with the first-principles calculations. The results of this study offer an innovative approach for attaining considerable grain refinement in Al–7Si alloys by constructing rare-earth grain refiners.

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