多中心键合和间隙元素对孪晶γ-TiAl晶体的影响。

Influences of Multicenter Bonding and Interstitial Elements on Twinned γ-TiAl Crystal.

作者信息

Fu Zehang, Wang Jinkai, Wang Hao, Lu Xiaogang, He Yanlin, Chen Ying

机构信息

State Key Laboratory of Advanced Special Steels, Shanghai Key Laboratory of Advanced Ferrometallurgy, School of Materials Science and Engineering, Shanghai University, 99 Shangda Road, BaoShan District, Shanghai 200444, China.

Materials Genome Institute, Shanghai University, 99 Shangda Road, BaoShan District, Shanghai 200444, China.

出版信息

Materials (Basel). 2020 Apr 25;13(9):2016. doi: 10.3390/ma13092016.

DOI:10.3390/ma13092016

PMID:32344869

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7254216/

Abstract

The bonding properties of the twin boundary in polysynthetic twinned γ-TiAl crystal and the effect of interstitial alloy elements on it are investigated by first principles. Among the three different kinds of interface relationships in the γ/γ interface, the proportion of true twin boundaries is the highest because it has the lowest interfacial energy, the reason for which is discussed by local energy and three-center bond. The presence of the interstitial atoms C, N, H, and O induces the competition for domination between their affinity to host atoms and three-center bonds, which eventually influences the values of unstable stacking fault energy (USFE) and intrinsic stacking fault energy (ISFE). The relative importance of different bonding with different alloy elements is clarified based on the analysis of local energy combined with Electron Localization Function (ELF) and Quantum Theory of Atoms in Molecules (QTAIM) schemes.

摘要

采用第一性原理研究了多晶孪晶γ-TiAl晶体中孪晶界的键合特性以及间隙合金元素对其的影响。在γ/γ界面的三种不同界面关系中，真正孪晶界的比例最高，因为其具有最低的界面能，通过局部能量和三中心键对此原因进行了讨论。间隙原子C、N、H和O的存在引发了它们与基体原子的亲和力和三中心键之间的主导竞争，最终影响了不稳定堆垛层错能（USFE）和本征堆垛层错能（ISFE）的值。基于结合电子定域函数（ELF）和分子中原子量子理论（QTAIM）方案的局部能量分析，阐明了不同合金元素不同键合的相对重要性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c9dc/7254216/e4483e41be09/materials-13-02016-g001.jpg

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多中心键合和间隙元素对孪晶γ-TiAl晶体的影响。

Influences of Multicenter Bonding and Interstitial Elements on Twinned γ-TiAl Crystal.

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