4.7 Article

Origin of structural heterogeneity in Zr-Co-Al metallic glasses from the point of view of liquid structures

Journal

JOURNAL OF NON-CRYSTALLINE SOLIDS
Volume 553, Issue -, Pages -

Publisher

ELSEVIER
DOI: 10.1016/j.jnoncrysol.2020.120501

Keywords

Liquid structures; Structural heterogeneity; Molecular dynamics simulation; Short-range orders

Funding

  1. National Natural Science Foundation of China [51871132, 51761135125]
  2. European Research Council under the ERC Advanced Grant INTELHYB [ERC-2013-ADG-340025]
  3. Ministry of Science and Higher Education of the Russian Federation [19-13-00207]

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This study investigated the origin of structural heterogeneity in metallic glasses by simulating liquid structures upon cooling of Zr-Co-Al alloys. The findings suggest that chemical structural heterogeneity plays a crucial role in the formation of Zr65Co30Al5 MG, which displays increased ductility with more pronounced chemical structural heterogeneity. Bond pair analysis revealed the prominence of five-fold symmetric bond pairs in both MGs, with Zr65Co30Al5 MG exhibiting noticeable six-fold symmetric stability.
To clarify the origin of structural heterogeneity in metallic glasses (MGs), liquid structures upon cooling of Zr-Co-Al alloys were simulated. Being different from Zr10Co85Al5 alloy, the first peak of pair distribution functions (PDFs) for Zr65Co30Al5 alloy exhibits a splitting behavior, which is attributed to the competition between Co-and Zr-centered clusters. The coordination numbers and chemical short-range order (SRO) analysis show that the chemical structural heterogeneity also governs the formation of Zr(65)Co(30)Al(5 )MG. Bond pair analysis reveals the prominence of bond pairs with five-fold symmetry for both MGs, but bond pairs in Zr65Co30Al5 MG exhibit noticeable six-fold symmetric stability. Voronoi polyhedron analysis further confirms the formation of strong chemical SROs in Zr65Co30Al5 MG. Dynamic mechanical experiments (DMA) prove the existence of structural heterogeneity, while Zr65Co30Al5 MG with more pronounced (chemical) structural heterogeneity displays larger ductility. The present work may provide a new insight into the origin of structural heterogeneity in MGs.

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