%0 journal article %@ 8756-758X %A Kashaev, N.,Keller, S.,Staron, P.,Maawad, E.,Huber, N. %D 2021 %J Fatigue and Fracture of Engineering Materials and Structures %N 12 %P 3463-3481 %R doi:10.1111/ffe.13579 %T On the prediction of fatigue crack growth based on weight functions in residual stress fields induced by laser shock peening and laser heating %U https://doi.org/10.1111/ffe.13579 12 %X This study deals with fatigue crack growth prediction for thin sheet AA2024 specimens with residual stresses introduced through laser shock peening and laser heating treatments. Different weight functions are used to calculate the stress intensity factor due to the presence of residual stresses. A superposition principle is used by calculating the total stress intensity factor considering the applied loads and residual stresses. The fatigue crack growth is predicted using the Paris' law based on the effective stress intensity factor range, in that the effect of residual stresses is considered by changing the total stress intensity factor ratio. It is concluded, that weight functions are a powerful tool to predict fatigue crack growth in AA2024 containing residual stress fields, as long as the gradient in the loading direction, as induced by laser shock peening and laser heating, is moderate.