2015
DOI: 10.1039/c5cp00512d
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Atomistic modeling to optimize composition and characterize structure of Ni–Zr–Mo metallic glasses

Abstract: An interatomic potential was constructed for the Ni-Zr-Mo ternary metal system with the newly proposed long-range empirical formulism, which has been verified to be applicable for fcc, hcp and bcc transition metals and their alloys. Applying the constructed potential, molecular dynamics simulations predict a hexagonal composition region within which metallic glass formation is energetically favored. Based on the simulation results, the driving force for amorphous phase formation is derived, and thus an optimiz… Show more

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Cited by 20 publications
(11 citation statements)
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“…Within the red dot region, the Ni45Zr40Mo15 alloy symbolized by the black pentagram is shown as the composition with the maximum ADF. Additionally, the composition of Ni45Zr40Mo15 obtained from the atomistic simulation is close to that of Ni48Zr48Mo4 obtained from thermodynamic calculation [56]. Therefore, the Ni45Zr40Mo15 alloy and the nearby compositions can be considered energetically favored for metallic glass formation.…”
Section: Glass Formation Ability Of the Ternary Systemsmentioning
confidence: 67%
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“…Within the red dot region, the Ni45Zr40Mo15 alloy symbolized by the black pentagram is shown as the composition with the maximum ADF. Additionally, the composition of Ni45Zr40Mo15 obtained from the atomistic simulation is close to that of Ni48Zr48Mo4 obtained from thermodynamic calculation [56]. Therefore, the Ni45Zr40Mo15 alloy and the nearby compositions can be considered energetically favored for metallic glass formation.…”
Section: Glass Formation Ability Of the Ternary Systemsmentioning
confidence: 67%
“…For the Ni-Zr side, the mechanical alloying (MA) [76] experiments reveal a glass formation range of 24-83 at.% Zr. Besides, XRD diffractograms of Zr x Ni 100−x thin film MGs produced by magnetron sputtering method [39] [56]. The XRD data [73] for Ni64Zr36 MGs are also presented and marked as olive dots.…”
Section: Glass Formation Region For the Ni-zr-mo Systemmentioning
confidence: 99%
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