Las Rozas de Madrid, Spain
Las Rozas de Madrid, Spain

Time filter

Source Type

Morales M.,Universdad Polytechnic Of Madrid | Correa C.,Universdad Polytechnic Of Madrid | Porro J.A.,Universdad Polytechnic Of Madrid | Molpeceres C.,Universdad Polytechnic Of Madrid | Ocana J.L.,Universdad Polytechnic Of Madrid
International Journal of Structural Integrity | Year: 2011

Purpose - Laser shock peening (LSP) is mainly a mechanical process, but in some cases, it is performed without a protective coating and thermal effects are present near the surface. The numerical study of thermo-mechanical effects and process parameter influence in realistic conditions can be used to better understand the process. Design/methodology/approach - A physically comprehensive numerical model (SHOCKLAS) has been developed to systematically study LSP processes with or without coatings starting from laser-plasma interaction and coupled thermo-mechanical target behavior. Several typical results of the developed SHOCKLAS numerical system are presented. In particular, the application of the model tothe realistic simulation (full 3D dependence, non-linear material behavior, thermal and mechanical effects, treatment over extended surfaces) of LSP treatments in the experimental conditions of the irradiation facility used by the authors is presented. Findings - Target clamping has some influence on the results and needs to be properly simulated. An increase in laser spot radius and an increase in pressure produces an increase of the maximum compressive residual stress and also the depth of the compressive residual stress region. By increasing the pulse overlapping density, no major improvements are obtained if the pressure is high enough. The relative influence of thermal/mechanical effects shows that each effect has a different temporal scale and thermal effects are limited to a small region near the surface and compressive residual stresses very close to the surface level can be induced even without any protective coating through the application of adjacent pulses. Originality/value - The paper presents numerical thermo-mechanical study for LSP treatments without coating andastudyofthe influence of several process parameterson residual stress distribution with consideration of pulse overlapping. © Emerald Group Publishing Limited.

Loading Universdad Polytechnic Of Madrid collaborators
Loading Universdad Polytechnic Of Madrid collaborators