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Influence of stress correlations on dislocation glide in random alloys

Ali Rida, Enrique Martínez, David Rodney, Pierre-Antoine Geslin

2022Physical Review Materials22 citationsDOIOpen Access PDF

Abstract

Solute strengthening is an important mechanism that contributes to improving the mechanical properties of alloys and particularly the recent generations of concentrated alloys. The stress field emerging from an elastic model of a random solid solution displays strongly anisotropic correlations that interact differently with dislocations of different characters. In the present paper, we investigate the depinning transition of edge and screw dislocations evolving in such a correlated stress environment using a dislocation dynamics numerical model. We find that edge dislocations are only weakly affected by the correlations, while screw dislocations are strongly influenced, showing a smaller critical stress, which increases with the amplitude of the stress noise with a larger exponent than the edge dislocation. The numerical results are compared with existing statistical models of solute strengthening, allowing to discuss critically their assumptions.

Topics & Concepts

DislocationMaterials scienceEnhanced Data Rates for GSM EvolutionAnisotropyStress fieldStress (linguistics)Condensed matter physicsExponentAmplitudeStatistical physicsPhysicsComposite materialThermodynamicsOpticsComputer scienceFinite element methodLinguisticsPhilosophyTelecommunicationsHigh Temperature Alloys and CreepMicrostructure and mechanical propertiesnanoparticles nucleation surface interactions
Influence of stress correlations on dislocation glide in random alloys | Litcius