Heterogeneous microstructure of Zr46Cu46Al8 nanoglasses studied by quantifying glass-glass interfaces

•Amorphous grains and glass-glass interfaces could be distinguished by quasi-nearest atoms.•Local fivefold symmetry and chemical segregation were quantified in interfaces.•Local plastic deformation can be tuned visually by quantifying glass-glass interfaces. Heterogeneous microstructure of Zr46Cu46A...

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Bibliographic Details
Published in:Journal of non-crystalline solids 2020-10, Vol.546, p.120265, Article 120265
Main Authors: Feng, S.D., Li, L., Liu, Y.D., Wang, L.M., Liu, R.P.
Format: Article
Language:English
Subjects:
Interface microstructure
Metallic glass
Molecular dynamics simulation
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Summary:•Amorphous grains and glass-glass interfaces could be distinguished by quasi-nearest atoms.•Local fivefold symmetry and chemical segregation were quantified in interfaces.•Local plastic deformation can be tuned visually by quantifying glass-glass interfaces. Heterogeneous microstructure of Zr46Cu46Al8 nanoglasses was studied by molecular dynamics simulation. Glass-glass interfaces in nanoglasses could be told apart by formulating a contrast in the number of the quasi-nearest atom. Compared to other short-range order analysis, the quasi-nearest atom can reflect the deviated densely packing atomic clusters at the glass-glass interfaces directly. In terms of geometric and chemical short-range order, the low local fivefold symmetry and chemical segregation of interfaces improve the structural heterogeneity of nanoglasses. The local deformation preferentially takes place at the interfaces with a larger number of quasi-nearest atoms, achieving local plastic deformation tuned visually at the glass-glass interfaces. The correlation between structural and deformation properties is quantitatively assessed by tuning glass-glass interfaces. It is envisioned that the interfaces, as weak regions, can be a critical defect to tune the heterogeneous microstructure of nanoglasses.
ISSN:0022-3093
1873-4812
DOI:10.1016/j.jnoncrysol.2020.120265