Transformation-mediated twinning via transient HCP or FCC phases governs plasticity in BCC nanocrystals under extreme loading, with classical shear twinning suppressed as pressure rises.
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An extended dual-solute framework predicts co-segregation bounds in multicomponent alloys by machine-learning pairwise segregation energies that include solute-solute interactions and is validated on magnesium systems.
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Transformation-mediated twinning governs plasticity in body-centered cubic nanocrystals under extreme loading
Transformation-mediated twinning via transient HCP or FCC phases governs plasticity in BCC nanocrystals under extreme loading, with classical shear twinning suppressed as pressure rises.
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Predicting co-segregation in multicomponent alloys with solute-solute interactions
An extended dual-solute framework predicts co-segregation bounds in multicomponent alloys by machine-learning pairwise segregation energies that include solute-solute interactions and is validated on magnesium systems.