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Origin of omega-phase formation in metastable beta-type Ti-Mo alloys: cluster structure and stacking fault

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Indexed by:Journal Papers

Date of Publication:2020-05-26

Journal:SCIENTIFIC REPORTS

Included Journals:SCIE

Volume:10

Issue:1

ISSN No.:2045-2322

Abstract:The omega-phase formation and its collapsed structures in metastable beta-type Ti-Mo alloys were illustrated by first-principles calculations and experimental evidence of a partially collapsed omega-phase in the nanoscale Mo-depleted region under a rapid cooling via high-angle annular dark-field scanning transmission electron microscopy. The ease of omega-phase formation within -Mo-Ti-Mo- poor cluster structure was not only due to the low energy barrier in the collapse pathway, which was caused by the reduced lattice distortion, but also due to the softening of the shear modulus (G(111)) as a result of the small charge density difference. The most stable collapsed structure of the omega-phase strongly depended on the minimum stacking fault energy among different collapse degrees in accordance to the smallest charge density difference. Therefore, the concurrent compositional and structural instabilities of the omega-phase was attributed to the coupling effect of the cluster structure with stacking fault from the atomic and electronic basis.

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