الفهرس | Only 14 pages are availabe for public view |
Abstract Shot peening is a cold working process widely used to extend the fatigue life of metallic components that undergo cyclic loading conditions such as in aerospace and automobile industries. Shot peening is one of the most interesting surface treatments as this treatment is controlled by variables that lay under a stochastic and probabilistic nature, attempts are made increasingly to control these variables to represent a controlled environment for the shot peening process. The repeatability and effectiveness of this treatment depends greatly on the process parameters, such as almen intensity and surface coverage. Although great attention is directed to the shot peening finite element modeling (FEM) existing FEM studies are invested in a single shot impact with limited investigation on a collective multiple shot results. In addition, a systematic study to support the selection of the process parameters for general purpose is lacking. This thesis will provide a detailed study based on experimental setup and finite element models on how different process parameters affect the peening results and this leads to define the limits of beneficial shot peening through the following objectives. The First objective is to analyze the coverage progression of peening indentation through a novel approach using image processing |