Investigation on shot-peening induced residual stress field Online publication date: Mon, 20-Dec-2010
by Georgios I. Mylonas, Ulrike Heckenberger, Georgios N. Lampeas
International Journal of Microstructure and Materials Properties (IJMMP), Vol. 5, No. 4/5, 2010
Abstract: An investigation of a shot peening induced residual stress field in an aluminium alloy plate is performed both experimentally, as well as by developing a numerical simulation model capable of predicting the residual stress profile. Shot peening induced residual stresses are measured by the hole drilling technique. Experimental results provide through-the-thickness residual stress profiles of shot peening treated AA7449-T7651 plates under different shot intensities. Experimentally measured residual stresses are compared to the respective residual stress distributions computed by the finite element model for verification and validation purposes. The numerical model comprises a single steel shot impacting on the aluminium target plate. The steel shot is considered as elastic deformable body, while the target aluminium plate material is considered elastic-plastic with strain hardening. After its successful validation, the numerical model is applied to the parametric study of the effect of shot velocity and shot size on the induced residual stress profile.
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