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arxiv: 2005.04654 · v1 · pith:UPPSSJW7 · submitted 2020-05-10 · cond-mat.mtrl-sci · cond-mat.dis-nn· cond-mat.soft

Glass formation in binary alloys with different atomic symmetries

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classification cond-mat.mtrl-sci cond-mat.dis-nncond-mat.soft
keywords alloysatomicdifferentsymmetriesbinaryglasscrystalformation
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Prediction of the glass forming ability (GFA) of alloys remains a major challenge. We are not able to predict the composition dependence of the GFA of even binary alloys. To investigate the effect of each element's propensity to form particular crystal structures on glass formation, we focus on binary alloys composed of elements with the same size, but different atomic symmetries using the patchy-particle model. For mixtures with atomic symmetries that promote different crystal structures, the minimum critical cooling rate $R_c$ is only a factor of $5$ lower than that for the pure substances. For mixtures with different atomic symmetries that promote local crystalline and icosahedral order, the minimum $R_c$ is more than $3$ orders of magnitude lower than that for pure substances. Results for $R_c$ for the patchy-particle model are in agreement with those from embedded atom method simulations and sputtering experiments of NiCu, TiAl, and high entropy alloys.

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