Springback Simulation: Impact of Some Advanced Constitutive Models and Numerical Parameters
Communication avec acte
Auteur
HADDAG, Badis BALAN, Tudor ABED-MERAIM, FaridRésumé
The impact of material models on the numerical simulation of springback is investigated. The study is focused on the strain-path sensitivity of two hardening models. While both models predict the Bauschinger effect, their response in the transient zone after a strain-path change is fairly different. Their respective predictions are compared in terms of sequential test response and of strip-drawing springback. For this purpose, an accurate and general time integration algorithm has been developed and implemented in the Abaqus code. The impact of several numerical parameters is also studied in order to assess the overall accuracy of the finite element prediction. For some test geometries, both material and numerical parameters are shown to clearly influence the springback behavior at a large extent. Moreover, a general trend cannot always be extracted, thus justifying the need for the finite element simulation of the stamping process.
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Communication avec acte;ABED-MERAIM, Farid; BALAN, Tudor (Groupe Français de Mécanique des Matériaux, 2008)
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Investigation of advanced strain-path dependent material models for sheet metal forming simulations Article dans une revue avec comité de lecture;BALAN, Tudor; ABED-MERAIM, Farid (Elsevier, 2006)
Sheet metal forming processes often involve complex loading sequences. To improve the prediction of some undesirable phenomena, such as springback, physical behavior models should be considered. This paper investigates ...
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Article dans une revue avec comité de lecture;ABED-MERAIM, Farid; BALAN, Tudor (Elsevier, 2009)
Sheet metal forming processes generally involve large deformations together with complex loading sequences. In order to improve numerical simulation predictions of sheet part forming, physically-based constitutive models ...