Curvature Based Forming Limit Prediction of High-Strength Steel Components with Superimposed Stretching and Bending in the Deep Drawing Process-Reference-Cited by-同舟云学术

Curvature Based Forming Limit Prediction of High-Strength Steel Components with Superimposed Stretching and Bending in the Deep Drawing Process

Published:2015-07 Issue: Volume:651-653 Page:181-186
ISSN:1662-9795
Container-title:Key Engineering Materials
language:
Short-container-title:KEM

Author:

Schalk-Kitting Daniela¹,Weiß Wolfgang²,Suhr Bettina¹,Koplenig Michael¹

Affiliation:

1. Virtual Vehicle Research Center

2. VIRTUAL VEHICLE Research and Test Center (ViF)

Abstract

The state of deformation in deep drawing operations is characterized by superimposed stretching and bending (i.e. stretch-bending). Bending effects, especially for Advanced High Strength Steels (AHSS) are known to influence the material formability. Traditional formability measures such as the Forming Limit Curve (FLC) fail to reliably predict stretch-bending formability. Consequently, to ensure an efficient and economical use of AHSS in the industrial application, current research work is focusing on the reliable numerical prediction of stretch-bending formability of AHSS sheets.Within this work, a phenomenological concept to predict the forming limit (e.g. the onset of necking) in deep drawing processes taking bending effects into account is presented. The proposed concept is based on curvature-dependent (i.e. regarding the principle curvatures κ1 and κ2 of the stretch-bend (convex) sheet surface) forming limit surfaces representing the probability of failure and is calibrated with experimental results from stretch-bending tests and conventional forming test such as a Nakazima test. The results of the phenomenological forming limit criterion are promising and show a more accurate prediction of the drawing depth at failure than the conventional FLC approach. The method contributes also to a probabilistic view on the forming limit of deep drawing parts.

Publisher

Trans Tech Publications, Ltd.

Subject

Mechanical Engineering,Mechanics of Materials,General Materials Science

Link

https://www.scientific.net/KEM.651-653.181.pdf

Reference7 articles.

1. D. Kitting, A. Ofenheimer, H. Pauli, E.T. Till: Experimental Characterization of Stretch-Bending Formability of AHSS Sheet, American Institute of Physics (AIP) Conference Proceedings 1353, Belfast, Ireland; G. Menary (Ed. ), (2011), 1589-1594.

2. D. Kitting, A. Ofenheimer, M Jain, H. Pauli and G. Rabler: Experimental characterisation of failure of stretch-bend steel sheets in Numisheet 2008, Conference Proceedings, Part A (2008) 315-320.

3. E.H. Atzema, E. Fictorie, A.H. van den Boogaard, J.M.M. Droog: The influence of curvature on FLC's of mild steel, (A)HSS and aluminium, Proceedings of IDDRG 2010, Graz, Austria; R. Kolleck (Ed. ), (2010), 519-528.

4. D. Kitting, A. Ofenheimer, H. Pauli, E.T. Till: Experimental Characterization of Stretch-Bending Formability of AHSS Sheet, AIP conference Proceedings 1353, Belfast, Ireland (2011), pp.1589-1594.

5. W. Weiss et al.: Enhanced formability assessment of AHSS sheets, (ENFASS – Rearch Fund for Coal and Steel) –RFSR-CT-2011-00020 – Report, (2015) – to be published.

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