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溶质对镁的基面和棱柱面滑移系的影响。

Solute effect on basal and prismatic slip systems of Mg.

作者信息

Moitra Amitava, Kim Seong-Gon, Horstemeyer M F

机构信息

Thematic Unit of Excellence on Comuputational Materials Science, S.N. Bose National Centre for Basic Sciences, Sector-III, Block-JD, Salt Lake, Kolkata-700098, India.

出版信息

J Phys Condens Matter. 2014 Nov 5;26(44):445004. doi: 10.1088/0953-8984/26/44/445004. Epub 2014 Oct 2.

Abstract

In an effort to design novel magnesium (Mg) alloys with high ductility, we present a first principles data based on the Density Functional Theory (DFT). The DFT was employed to calculate the generalized stacking fault energy curves, which can be used in the generalized Peierls-Nabarro (PN) model to study the energetics of basal slip and prismatic slip in Mg with and without solutes to calculate continuum scale dislocation core widths, stacking fault widths and Peierls stresses. The generalized stacking fault energy curves for pure Mg agreed well with other DFT calculations. Solute effects on these curves were calculated for nine alloying elements, namely Al, Ca, Ce, Gd, Li, Si, Sn, Zn and Zr, which allowed the strength and ductility to be qualitatively estimated based on the basal dislocation properties. Based on our multiscale methodology, a suggestion has been made to improve Mg formability.

摘要

为了设计具有高延展性的新型镁(Mg)合金,我们基于密度泛函理论(DFT)给出了第一性原理数据。利用DFT计算广义堆垛层错能曲线,该曲线可用于广义派尔斯 - 纳巴罗(PN)模型,以研究有无溶质时镁中基面滑移和棱柱面滑移的能量学,从而计算连续尺度的位错核心宽度、堆垛层错宽度和派尔斯应力。纯镁的广义堆垛层错能曲线与其他DFT计算结果吻合良好。计算了九种合金元素(即铝、钙、铈、钆、锂、硅、锡、锌和锆)对这些曲线的影响,这使得能够基于基面位错特性定性估计强度和延展性。基于我们的多尺度方法,提出了改善镁可成形性的建议。

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