A numerical prediction of residual stress for a thin-walled part with geometrical features fabricated by GMA-based additive manufacturing
ISSN: 1355-2546
Article publication date: 30 September 2019
Issue publication date: 25 February 2020
Abstract
Purpose
An accurate prediction of process-induced residual stress is necessary to prevent large distortion and cracks in gas metal arc (GMA)-based additive manufactured parts, especially thin-walled parts. The purpose of this study is to present an investigation into predicting the residual stress distributions of a thin-walled component with geometrical features.
Design/methodology/approach
A coupled thermo-mechanical finite element model considering a general Goldak double ellipsoidal heat source is built for a thin-walled component with geometrical features. To confirm the accuracy of the model, corresponding experiments are performed using a positional deposition method in which the torch is tilted from the normal direction of the substrate. During the experiment, the thermal cycle curves of locations on the substrate are obtained by thermocouples. The residual stresses on the substrate and part are measured using X-ray diffraction. The validated model is used to investigate the thermal stress evolution and residual stress distributions of the substrate and part.
Findings
Decent agreements are achieved after comparing the experimental and simulated results. It is shown that the geometrical feature of the part gives rise to an asymmetrical transversal residual stress distribution on the substrate surface, while it has a minimal influence on the longitudinal residual stress distribution. The residual stress distributions of the part are spatially uneven. The longitudinal tensile residual stress is the prominent residual stress in the central area of the component. Large wall-growth tensile residual stresses, which may cause delamination, appear at both ends of the component and the substrate–component interfaces.
Originality/value
The predicted residual stress distributions of the thin-walled part with geometrical features are helpful to understand the influence of geometry on the thermo-mechanical behavior in GMA-based additive manufacturing.
Keywords
Acknowledgements
This work was funded by National Natural Science Foundation of China, number 51975491 and number 61573293, Sichuan Science and Technology Program, number 2019YFG0354, and the Fundamental Research Funds for the Central Universities, number 2682019CX12.
Citation
Li, R. and Xiong, J. (2020), "A numerical prediction of residual stress for a thin-walled part with geometrical features fabricated by GMA-based additive manufacturing", Rapid Prototyping Journal, Vol. 26 No. 2, pp. 299-308. https://doi.org/10.1108/RPJ-08-2018-0193
Publisher
:Emerald Publishing Limited
Copyright © 2019, Emerald Publishing Limited