We derive a strain-gradient theory for plasticity as the Γ-limit of discrete dislocation fractional energies, without the introduction of a core-radius. By using the finite horizon fractional gradient introduced by Bellido et al. (Adv Calc Var 17:1039-1055, 2024), we consider a nonlocal model of semi-discrete dislocations, in which the stored elastic energy is computed via the fractional gradient of order 1-alpha. As alpha goes to 0, we show that suitably rescaled energies Γ-converge to the macroscopic strain-gradient model of Garroni et la. (J Eur Math Soc (JEMS) 12:1231-1266, 2010).

A fractional approach to strain-gradient plasticity: beyond core-radius of discrete dislocations

Caponi, Maicol
;
2024-01-01

Abstract

We derive a strain-gradient theory for plasticity as the Γ-limit of discrete dislocation fractional energies, without the introduction of a core-radius. By using the finite horizon fractional gradient introduced by Bellido et al. (Adv Calc Var 17:1039-1055, 2024), we consider a nonlocal model of semi-discrete dislocations, in which the stored elastic energy is computed via the fractional gradient of order 1-alpha. As alpha goes to 0, we show that suitably rescaled energies Γ-converge to the macroscopic strain-gradient model of Garroni et la. (J Eur Math Soc (JEMS) 12:1231-1266, 2010).
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11697/247603
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