Po‐Yen Tung scite author profile

High-entropy alloys are solid solutions of multiple principal elements that are capable of reaching composition and property regimes inaccessible for dilute materials. Discovering those with valuable properties, however, too often relies on serendipity, because thermodynamic alloy design rules alone often fail in high-dimensional composition spaces. We propose an active learning strategy to accelerate the design of high-entropy Invar alloys in a practically infinite compositional space based on very sparse data. Our approach works as a closed-loop, integrating machine learning with density-functional theory, thermodynamic calculations, and experiments. After processing and characterizing 17 new alloys out of millions of possible compositions, we identified two high-entropy Invar alloys with extremely low thermal expansion coefficients around 2 × 10 −6 per degree kelvin at 300 kelvin. We believe this to be a suitable pathway for the fast and automated discovery of high-entropy alloys with optimal thermal, magnetic, and electrical properties.

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Under-stoichiometric cementite in decomposing binary Fe-C pearlite exposed to rolling contact fatigue

Tung

Zhou

Mayweg

et al. 2021

Acta Materialia

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Mechanism of cementite decomposition in 100Cr6 bearing steels during high pressure torsion

Mayweg

Tung

et al. 2020

Acta Materialia

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Po‐Yen Tung

Machine learning–enabled high-entropy alloy discovery

Under-stoichiometric cementite in decomposing binary Fe-C pearlite exposed to rolling contact fatigue

Mechanism of cementite decomposition in 100Cr6 bearing steels during high pressure torsion

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