Does the Larkin length exist? - Archive ouverte HAL
Article Dans Une Revue Modelling and Simulation in Materials Science and Engineering Année : 2024

Does the Larkin length exist?

Résumé

The yield stress of random solid solutions is a classic theme in physical metallurgy that currently attracts a renewed interest in connection to high entropy alloys. Here, we revisit this subject using a minimal dislocation dynamics model, where a dislocation is represented as an elastic line with a constant line tension embedded in the stochastic stress field of the solutes. Our exploration of size effects reveals that the so-called Larkin length (L c) is not a length scale over which a dislocation can be geometrically decomposed. Instead, L c is a crossover length scale marking a transition in dislocation behavior identifiable in at least three properties: (1) below L c , the dislocation is close to straight, aligned in a single energy valley, while above L c , it roughens and traverses several valleys; (2) the yield stress exhibits pronounced size-dependence below L c but becomes size-independent above L c ; (3) the powerspectral density of the dislocation shape changes scaling at a critical wavelength directly proportional to L c. We show that for white and correlated stress noises, L c and the thermodynamic limit of the yield stress can be predicted using Larkin's model, where the noise dependence in the glide direction is neglected. Moreover, we show that our analysis is relevant beyond the minimal line tension model by comparison with atomicscale simulations. Finally, our work suggests a practical approach for predicting yield stresses in atomistic models of random solid solutions, which only involves small-scale atomistic simulations below L c .
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Dates et versions

hal-04355482 , version 1 (20-12-2023)
hal-04355482 , version 2 (01-02-2024)

Identifiants

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David Rodney, Pierre-Antoine Geslin, Sylvain Patinet, Vincent Démery, Alberto Rosso. Does the Larkin length exist?. Modelling and Simulation in Materials Science and Engineering, 2024, 32 (3), pp.035007. ⟨10.1088/1361-651X/ad2543⟩. ⟨hal-04355482v2⟩
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