Effect of grain boundary segregation of rare earth element on deformation behavior of Mg alloys

Journal of Applied Physics Pub Date : 2024-08-09 DOI:10.1063/5.0219468

S. Li, H. Y. Song

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Abstract

Alloying with rare earth (RE) elements is an effective way to improve the mechanical properties of the Mg alloys. However, the strengthening mechanism of RE element Y on the Mg alloys still needs to be further revealed. The effect of grain boundary (GB) segregation of RE element Y on the mechanical properties and the GB stability of the Mg alloys are investigated by the molecular dynamics simulation method. The results show that the GB segregation of Y atoms can significantly increase the yield strength and GB stability of the Mg alloys. The higher the content of Y atoms at the GB, the stronger the stability of the GB and the higher the strength of the alloys. The results also show that the GBs thicken significantly with increasing Y content at the GBs, which is attributed to the diffusion of Y atoms, leading to the solid-state amorphization of the Mg alloys. The results indicate that with the increase of Y content at the GBs, the Mg alloys undergo a transition from the plastic deformation dominated by the co-sliding of GBs and dislocations to the slip of dislocations only. This work provides a theoretical basis for the design and preparation of high-performance Mg alloys.

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稀土元素的晶界偏析对镁合金变形行为的影响

与稀土（RE）元素合金化是改善镁合金机械性能的有效方法。然而，稀土元素 Y 对镁合金的强化机理仍有待进一步揭示。本文采用分子动力学模拟方法研究了 RE 元素 Y 的晶界偏析对镁合金力学性能和晶界稳定性的影响。结果表明，Y 原子的晶界偏析能显著提高镁合金的屈服强度和晶界稳定性。GB 上的 Y 原子含量越高，GB 的稳定性就越强，合金的强度就越高。结果还表明，随着 GB 上 Y 原子含量的增加，GB 明显变厚，这是由于 Y 原子的扩散导致了镁合金的固态非晶化。结果表明，随着 GB 处 Y 含量的增加，镁合金经历了从 GB 和位错共同滑动为主的塑性变形到仅有位错滑动的转变。这项研究为设计和制备高性能镁合金提供了理论依据。

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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Journal of Applied Physics

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