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W2991073177 abstract "A method suitable for computing the ideal strength of random substitutional alloys is introduced. The method relies on nonlinear continuum elasticity theory and allows for the high-throughput computation of ideal strength. The method also allows for the high-throughput computation of an intrinsic ductility parameter defined for a given applied stress state as the ratio of the strain associated with the cleavage instability to the strain associated with the first shear instability. The intrinsic ductility parameter is shown to correlate well with the measured elongations to failure for elemental body-centered-cubic and hexagonal close-packed metals. Application to four high-entropy alloys indicates that the intrinsic ductility parameter describes their experimental compressions to failure well. The method is used to argue that the brittle refractory high-entropy alloy Ta-Nb-V-W-Mo could be made much more ductile through replacement of Mo with Nb. The potential for the high-throughput optimization of high entropy and chemically complex alloys is discussed." @default.
W2991073177 created "2019-12-05" @default.
W2991073177 creator A5013303654 @default.
W2991073177 creator A5014407781 @default.
W2991073177 creator A5041979993 @default.
W2991073177 creator A5073265425 @default.
W2991073177 creator A5078442867 @default.
W2991073177 date "2019-11-27" @default.
W2991073177 modified "2023-10-09" @default.
W2991073177 title "Intrinsic ductility of random substitutional alloys from nonlinear elasticity theory" @default.
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W2991073177 doi "https://doi.org/10.1103/physrevmaterials.3.113608" @default.
W2991073177 hasPublicationYear "2019" @default.
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