1. Exploration of crystal structure and the origin of unexpected intrinsic ductility of χCo7Ta2.
- Author
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Xu, Wei-Wei, Yu, Qiang, Xia, Fangfang, Yin, Guohui, Huang, Yongfang, and Chen, Lijie
- Subjects
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CRYSTAL structure , *DUCTILITY , *ELECTRON configuration , *THERMODYNAMICS , *HEAT resistant alloys , *ATMOSPHERIC carbon dioxide - Abstract
The precise information on phase constitutions in the Co-Ta system is of practical significance for exploiting γ′-strengthened Co-Ta-based superalloys. The unidentified crystal structure of χCo 7 Ta 2 and the ambiguous description of phase relationship between χCo 7 Ta 2 and γ′Co 3 Ta result in the uncertainty of phase constitutions in the Co-rich region of Co-Ta. In this work, we present a systematical study of crystallographic data of Co 7 Ta 2 on the basis of first principles and an unbiased structure searching method. A layered-sandwich structure with C 2/ m monoclinic symmetry (Pearson symbol mC18) is identified for Co 7 Ta 2. The thermodynamic, mechanical and phonon calculations further verify the stability of C 2/ m. The quasi-harmonic thermodynamics exhibit that Co 3 Ta is stable and Co 7 Ta 2 should be metastable at ambient temperature. The entropy effect remarkably stabilizes Co 7 Ta 2 but destabilizes Co 3 Ta phase. The Co 7 Ta 2 would be the thermodynamically stable at T ≥ 1200 K. Further results of mechanical properties show that Co 7 Ta 2 yields an unexpected intrinsic ductility. Through the electronic configurations, it demonstrates that the ductility is associated with the bonding alteration in the specific layered-sandwich structure of Co 7 Ta 2 during deformation process. Image 1 • A layered-sandwich structure with C 2/ m monoclinic symmetry is predicted for Co 7 Ta 2. • Co 7 Ta 2 is metastable at 298 K, the entropy effect makes it be stable at T ≥ 1200 K. • Co 7 Ta 2 intermetallics yield an unexpected intrinsic ductility. • The origin of ductility is the specific bonding alteration under deformation. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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