Subsurface hardening of Al irradiated with ultrafast infrared laser - Mines Saint-Étienne
Journal Articles Scripta Materialia Year : 2025

Subsurface hardening of Al irradiated with ultrafast infrared laser

Abstract

The effect of femtosecond laser shock peening on a model Al-0.3Mn alloy was investigated experimentally and numerically by molecular dynamics. Micro-diffraction experiments performed at synchrotron source revealed the depth profiles of the residual stress and the stored energy of dislocations, a measure of local plasticity. The depth of the maximum compressive stress did not coincide with that of the maximum dislocation energy, which was found at the surface. The interaction between the laser and the metal was simulated with LAMMPS using a two-temperature molecular dynamics package. The model accurately described the equation of state of aluminum and showed nearly equal resolved shear stresses on all slip systems at the wavefront. The dislocation density at a depth of 1 μm, predicted by the Meyers' model [1], was higher than the experimental data, suggesting possible recovery due to the increased temperature of the sample after repeated shock loading.
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Year Month Jours
Avant la publication
Monday, April 14, 2025
Embargoed file
Monday, April 14, 2025
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Dates and versions

emse-04735002 , version 1 (14-10-2024)

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Lucas Rousseau, Djafar Iabbaden, Xxx Sedao, Nathalie Peillon, Szilvia Kalácska, et al.. Subsurface hardening of Al irradiated with ultrafast infrared laser. Scripta Materialia, 2025, 255, pp.116404. ⟨10.1016/j.scriptamat.2024.116404⟩. ⟨emse-04735002⟩
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