Analysis of sheet metal formability through isotropic and kinematic hardening models
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Publication:388305
DOI10.1016/J.EUROMECHSOL.2011.03.005zbMath1278.74016OpenAlexW1983621498WikidataQ59275824 ScholiaQ59275824MaRDI QIDQ388305
Cristian Teodosiu, Marilena C. Butuc, Frédéric Barlat, José J. Gracio
Publication date: 19 December 2013
Published in: European Journal of Mechanics. A. Solids (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.euromechsol.2011.03.005
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Cites Work
- Towards an accurate description of the anisotropic behaviour of sheet metals under large plastic deformations: modelling, numerical analysis and identification
- Predictions of forming limit diagrams using a rate-dependent polycrystal self-consistent plasticity model
- Prediction of history-dependent forming limits by applying different hardening models
- Effect of kinematic hardening on localized necking in biaxially stretched sheets
- Prediction of forming limit curves using an anisotropic yield function with prestrain induced backstress
- Review of theoretical models of the strain-based FLD and their relevance to the stress-based FLD
- Localized necking analysis by the subloading surface model with tangential-strain rate and anisotropy
- Plane stress yield function for aluminum alloy sheets. I: Theory.
- Prediction of forming limit strains under strain-path changes: application of an anisotropic model based on texture and dislocation structure
- Review of Drucker's postulate and the issue of plastic stability in metal forming
- On linear transformations of stress tensors for the description of plastic anisotropy
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