Generalised stacking fault energies of copper alloys - density functional theory calculations

M. Muzyk; K.J. Kurzyd?owski

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Generalised stacking fault energies of copper alloys - density functional theory calculations

机译：铜合金的广义堆垛层错能-密度泛函理论计算

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Generalised stacking fault energies of copper alloys have been calculated using density functional theory. Stacking fault energy of copper alloys is correlated with the d–electrons number of transition metal alloying element. The tendency to twiningis also modified by the presence of alloying element in the deformation plane. The results suggest that Cu –transition metal alloys with such elements as Cr, Mo, W, Mn, Re are expected to exhibit great work hardening rate due to the tendency to emission of the partial dislocations.

机译：利用密度泛函理论计算了铜合金的广义堆垛层错能。铜合金的堆垛层错能与过渡金属合金元素的d电子数相关。孪生的趋势也由于变形平面中合金元素的存在而改变。结果表明，由于部分位错的释放趋势，具有Cr，Mo，W，Mn，Re等元素的Cu-过渡金属合金有望表现出较高的加工硬化速率。

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《Journal of Mining and Metallurgy, Section B: Metallurgy》 |2019年第2期|共12页
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M. Muzyk; K.J. Kurzyd?owski;
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中图分类冶金工业;
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Ab initio calculationscopper alloystwining;

机译：从头算计算铜合金缠绕;

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Generalised stacking fault energies of copper alloys - density functional theory calculations

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