首页|High entropy alloys with hexagonal close-packed structure derived from thin film combinatorial approach
High entropy alloys with hexagonal close-packed structure derived from thin film combinatorial approach
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NSTL
Elsevier
A thin film combinatorial synthesis approach was utilized to develop a compositional and structural library for the OsRuWCo alloy system. The survey of this alloy space produced 24 unique compositions and their corresponding crystal structures, which represent a phase map where amorphous and single-phase hexagonal close-packed alloys were identified. Based on the identification of a promising candidate film region, a new high entropy alloy based on OsRuWCo, but with non-equiatomic composition, was synthesized in bulk form. The alloy exhibited a single-phase hexagonal close-packed structure in the as-cast state. Three derivatives from this system were also developed by considering the heat of mixing, atomic size, and binary solubility. These new alloys are based on OsRuWCoIr and OsRuWCoFe, both of which exhibit single-phase hexagonal close-packed as-cast structures, as determined by X-ray diffraction and electron microscopy. Additionally, this large compositional space was utilized to evaluate conventional parameters that describe high entropy alloys (Delta S-mix, Delta H-mix, Omega, delta, and VEC), and these were found to elucidate the criteria for solid solution formation in this system. Trends illustrating the evolution from amorphous to crystalline phases are demonstrated and discussed. It is concluded that in this particular case, the dominant factors promoting crystallinity are thermodynamic or electronic, rather than geometric. (C) 2021 Published by Elsevier B.V.
Transition metal alloys and compoundsHigh entropy alloyMulti-principal element alloyThin filmsMicrostructureOrder-disorder effectsELEMENTS
Ter-Isahakyan, Artashes、Rau, Julia S.、Balk, Thomas John
NSTL
Elsevier
