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Computationally-driven engineering of sublattice ordering in a hexagonal AlHfScTiZr high entropy alloy.


ABSTRACT: Multi-principle element alloys have enormous potential, but their exploration suffers from the tremendously large range of configurations. In the last decade such alloys have been designed with a focus on random solid solutions. Here we apply an experimentally verified, combined thermodynamic and first-principles design strategy to reverse the traditional approach and to generate a new type of hcp Al-Hf-Sc-Ti-Zr high entropy alloy with a hitherto unique structure. A phase diagram analysis narrows down the large compositional space to a well-defined set of candidates. First-principles calculations demonstrate the energetic preference of an ordered superstructure over the competing disordered solid solutions. The chief ingredient is the Al concentration, which can be tuned to achieve a D019 ordering on the hexagonal lattice. The computationally designed D019 superstructure is experimentally confirmed by transmission electron microscopy and X-ray studies. Our scheme enables the exploration of a new class of high entropy alloys.

SUBMITTER: Rogal L 

PROVIDER: S-EPMC5438366 | biostudies-literature | 2017 May

REPOSITORIES: biostudies-literature

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Computationally-driven engineering of sublattice ordering in a hexagonal AlHfScTiZr high entropy alloy.

Rogal Lukasz L   Bobrowski Piotr P   Körmann Fritz F   Divinski Sergiy S   Stein Frank F   Grabowski Blazej B  

Scientific reports 20170519 1


Multi-principle element alloys have enormous potential, but their exploration suffers from the tremendously large range of configurations. In the last decade such alloys have been designed with a focus on random solid solutions. Here we apply an experimentally verified, combined thermodynamic and first-principles design strategy to reverse the traditional approach and to generate a new type of hcp Al-Hf-Sc-Ti-Zr high entropy alloy with a hitherto unique structure. A phase diagram analysis narrow  ...[more]

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