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Ultrastrong Medium‐Entropy Single‐Phase Alloys Designed via Severe Lattice Distortion

Seok Su SohnMax‐Planck‐Institut für Eisenforschung Max‐Planck‐Straβe 1 40237 Düsseldorf GermanyAlisson Kwiatkowski da SilvaMax‐Planck‐Institut für Eisenforschung Max‐Planck‐Straβe 1 40237 Düsseldorf GermanyYuji IkedaDepartment of Materials Science and Engineering Kyoto University Kyoto 606‐8501 JapanFritz KörmannDepartment of Materials Science and Engineering Delft University of Technology Mekelweg 2 2628 CD Delft The NetherlandsWenjun LuMax‐Planck‐Institut für Eisenforschung Max‐Planck‐Straβe 1 40237 Düsseldorf GermanyWon Seok ChoiDepartment of Materials Science and Engineering Korea Advanced Institute of Science and Technology Daejeon 34141 South KoreaBaptiste GaultMax‐Planck‐Institut für Eisenforschung Max‐Planck‐Straβe 1 40237 Düsseldorf GermanyDirk PongeMax‐Planck‐Institut für Eisenforschung Max‐Planck‐Straβe 1 40237 Düsseldorf GermanyJörg NeugebauerMax‐Planck‐Institut für Eisenforschung Max‐Planck‐Straβe 1 40237 Düsseldorf GermanyDierk RaabeMax‐Planck‐Institut für Eisenforschung Max‐Planck‐Straβe 1 40237 Düsseldorf Germany
2018en
ABI

Аннотация

Severe lattice distortion is a core effect in the design of multiprincipal element alloys with the aim to enhance yield strength, a key indicator in structural engineering. Yet, the yield strength values of medium- and high-entropy alloys investigated so far do not substantially exceed those of conventional alloys owing to the insufficient utilization of lattice distortion. Here it is shown that a simple VCoNi equiatomic medium-entropy alloy exhibits a near 1 GPa yield strength and good ductility, outperforming conventional solid-solution alloys. It is demonstrated that a wide fluctuation of the atomic bond distances in such alloys, i.e., severe lattice distortion, improves both yield stress and its sensitivity to grain size. In addition, the dislocation-mediated plasticity effectively enhances the strength-ductility relationship by generating nanosized dislocation substructures due to massive pinning. The results demonstrate that severe lattice distortion is a key property for identifying extra-strong materials for structural engineering applications.

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