Effects of vertical and pinch rolling on residual stress distributions in wire and arc additively manufactured components

Tangestani, Reza and Farrahi, Gholam Hossein and Shishegar, Mehdi and Aghchehkandi, Bahareh Pourbagher and Ganguly, Supriyo and Mehmanparast, Ali (2020) Effects of vertical and pinch rolling on residual stress distributions in wire and arc additively manufactured components. Journal of Materials Engineering and Performance, 29 (4). pp. 2073-2084. ISSN 1059-9495 (https://doi.org/10.1007/s11665-020-04767-0)

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Abstract

Residual stresses are inherent in parts manufactured using the wire + arc additive manufacturing (WAAM) technique, resulting in unpredictable mechanical response and structural integrity (Colegrove et al.: J Mater Process Technol 213:1782-1791, 2013). An effective post-processing technique, which enhances the mechanical properties of WAAM parts, is rolling. This study investigates the vertical and pinch rolling effects on residual stress distribution in WAAM components. Initially, a WAAM model was created using a thermo-mechanical finite element modelling approach and validated against the experimental results. Subsequent to the validation of the model, the effect of the main parameters involved in vertical and pinch rolling processes, namely the rolling depth, the curvature depth of the roller, the roller shape, transversal displacement, rolling direction and roller thickness, was investigated. The results from this study show that the residual stress profile in the vertical rolling process applied on a WAAM wall can be enhanced by increasing the rolling depth and curvature depth of the roller. Moreover, it is shown that in the pinch rolling process, the residual stress profile is sensitive to the rolling direction and more compressive residual stresses can be induced into the wall by applying fewer passes of rolling using thicker rollers.