First-principles calculation of stacking fault and twin boundary energies of Cr2Nb

Hong S.; Yoo MH.; Fu CL.

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First-principles calculation of stacking fault and twin boundary energies of Cr2Nb

机译：Cr2Nb堆垛层错和双边界能的第一性原理计算

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The stacking fault and twin boundary energies of C15 Cr2Nb are calculated by the first-principles local-density-functional approach. It is found that the intrinsic and extrinsic stacking fault energies are 116 and 94 mJ m(-2), respectively, and the twin boundary energy is 39 mJ m(-2). The lower extrinsic stacking fault energy is consistent with the fact that the C36 structure has a lower energy than the C14 structure. The calculated stacking fault energies at OK are larger than the experimental values available in the literature. The equilibrium separations between Shockley partials based on the calculated elastic constants and stacking fault energies are also calculated. [References: 19]

机译：用第一性原理局部密度泛函方法计算了C15 Cr2Nb的堆垛层错和双边界能。发现本征和非本征堆叠断层能分别为116 mJ m（-2）和94 mJ m（-2）。较低的外部堆垛层错能与C36结构的能量低于C14结构的事实是一致的。 OK处计算的堆垛层错能量大于文献中提供的实验值。还基于计算的弹性常数和堆垛层错能量来计算Shockley子零件之间的平衡间距。 [参考：19]

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《Philosophical Magazine, A. Physics of condensed matter, defects and mechanical properties》 |2000年第4期|共10页
作者
Hong S.; Yoo MH.; Fu CL.;
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正文语种 eng
中图分类物理学;
关键词
Laves phase; Elastic-constants; Stability; Nbcr2;

机译：Laves相;弹性常数;稳定性;Nbcr2;

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First-principles calculation of stacking fault and twin boundary energies of Cr2Nb

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