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International Journal of Material Forming

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02-12-2015 | Thematic Issue: Computational Methods in Manufacturing

Finite element analysis of combined forming processes by means of rate dependent ductile damage modelling

Authors: Y. Kiliclar, I. N. Vladimirov, S. Wulfinghoff, S. Reese, O. K. Demir, C. Weddeling, A. E. Tekkaya, M. Engelhardt, C. Klose, H. J. Maier, M. Rozgic̀, M. Stiemer

Published in: International Journal of Material Forming | Issue 1/2017

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Abstract

Sheet metal forming is an inherent part of todays production industry. A major goal is to increase the forming limits of classical deep-drawing processes. One possibility to achieve that is to combine the conventional quasi-static (QS) forming process with electromagnetic high-speed (HS) post-forming. This work focuses on the finite element analysis of such combined forming processes to demonstrate the improvement which can be achieved. For this purpose, a cooperation of different institutions representing different work fields has been established. The material characterization is based on flow curves and forming limit curves for low and high strain rates obtained by novel testing devices. Further experimental investigations have been performed on the process chain of a cross shaped cup, referring to both purely quasi-static and quasi-static combined with electromagnetic forming. While efficient mathematical optimization algorithms support the new viscoplastic ductile damage modelling to find the optimum parameters based on the results of experimental material characterization, the full process chain is studied by means of an electro-magneto-mechanical finite element analysis. The constitutive equations of the material model are integrated in an explicit manner and implemented as a user material subroutine into the commercial finite element package LS-DYNA.

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Title: Finite element analysis of combined forming processes by means of rate dependent ductile damage modelling
Authors: Y. Kiliclar
I. N. Vladimirov
S. Wulfinghoff
S. Reese
O. K. Demir
C. Weddeling
A. E. Tekkaya
M. Engelhardt
C. Klose
H. J. Maier
M. Rozgic̀
M. Stiemer
Publication date: 02-12-2015
Publisher: Springer Paris
Published in: International Journal of Material Forming / Issue 1/2017
Print ISSN: 1960-6206
Electronic ISSN: 1960-6214
DOI: https://doi.org/10.1007/s12289-015-1278-z

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