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International Journal of Material Forming

Erschienen in:

25.08.2016 | Original Research

On the benefits of a stress criterion for the simulation of cup drawing process

verfasst von: Yann Jansen, Roland E. Logé, Pierre-Yves Manach, Gabriel Carbuccia, Marc Milesi

Erschienen in: International Journal of Material Forming | Ausgabe 5/2017

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Abstract

Experimental and numerical cup drawing process has been investigated on 0.65 mm zinc sheets. The cup exhibits anisotropic earrings due to the material microstructure. The material formability is studied through elliptical bulge tests in the rolling, diagonal and transverse direction. High anisotropy of the formability is observed. The numerical simulation of cup drawing is then made and demonstrates the correct fitting with experimental results. A stress formability criterion developed by Jansen et al. [14] is then implemented into a finite element method software and applied to predict the material rupture observed for some process conditions. The risk zone of the cup is subjected to some strain path changes according to the simulation whereas the strain value does not explain the rupture according to the experimental formability measured by the bulge tests. It has been shown that the rupture is due to some critical stresses, which are reached in the risk zone of the cup. The use of the stress criterion and its non-dependence on the strain path change allows the fracture prediction. Finally, the numerical fracture propagation by the “kill element method”, as briefly discussed by Bouchard et al. [4], is used and shows a good similarity with the experience.

Vorheriger Artikel High strain rate embossing with copper plate

Nächster Artikel Numerical study of contact conditions in press hardening for tool wear simulation

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Titel: On the benefits of a stress criterion for the simulation of cup drawing process
verfasst von: Yann Jansen
Roland E. Logé
Pierre-Yves Manach
Gabriel Carbuccia
Marc Milesi
Publikationsdatum: 25.08.2016
Verlag: Springer Paris
Erschienen in: International Journal of Material Forming / Ausgabe 5/2017
Print ISSN: 1960-6206
Elektronische ISSN: 1960-6214
DOI: https://doi.org/10.1007/s12289-016-1313-8

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