2022
DOI: 10.1021/acs.jpcc.1c09728
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Computational Discovery of the Qualitative Electronegativity–Wettability Relationship in High-Temperature Ceramics-Supported TiAl Alloys

Abstract: The inevitable interaction between high-temperature ceramics (HTCs) and molten TiAl alloys during the casting process tends to cause the increased oxygen concentration, fracture, and embrittlement within TiAl alloys, and the interaction is closely related to wettability. Herein, the underlying mechanism of wettability (i.e., contact angle) between HTCs and molten TiAl alloys is systematically investigated by molecular dynamics (MD) simulations. Taking the interaction between the common adopted crucible (i.e., … Show more

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Cited by 9 publications
(1 citation statement)
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“…We extended the connectivity to several TCP clusters and discovered a new representation that can be applied to arbitrary systems, whether single or complex. Owning to its comparatively high glass-forming capacity, the Ti-Al [15][16][17][18] alloy has attracted attention as an excellent material for engineering purposes, providing an occasion to investigate the structural development in the glass formation process [19][20][21][22]. In this study, we combined the proposed method and the average connectable TCP cluster coefficient (C A-TCP ) with TiAl 3 to demonstrate the connectivity of TCP central atoms of TiAl 3 and obtained the expected results.…”
Section: Introductionmentioning
confidence: 97%
“…We extended the connectivity to several TCP clusters and discovered a new representation that can be applied to arbitrary systems, whether single or complex. Owning to its comparatively high glass-forming capacity, the Ti-Al [15][16][17][18] alloy has attracted attention as an excellent material for engineering purposes, providing an occasion to investigate the structural development in the glass formation process [19][20][21][22]. In this study, we combined the proposed method and the average connectable TCP cluster coefficient (C A-TCP ) with TiAl 3 to demonstrate the connectivity of TCP central atoms of TiAl 3 and obtained the expected results.…”
Section: Introductionmentioning
confidence: 97%