Title of article
An elastoplastic analysis of flange wrinkling in deep drawing process
Author/Authors
Chu، نويسنده , , E. and Xu، نويسنده , , Yu، نويسنده ,
Issue Information
ماهنامه با شماره پیاپی سال 2001
Pages
20
From page
1421
To page
1440
Abstract
The onset of flange wrinkling of a deep drawing cup is analyzed as an elastoplastic bifurcation problem. The flange is modeled as an elastoplastic annular plate subject to axisymmetric radial tension along its inner edge. As observed in the laboratory as well as practical industrial applications, aluminum alloy sheets usually wrinkle in the plastic range. Therefore, the critical condition governing the onset of elastoplastic wrinkling is formulated within the context of the general bifurcation theory. A closed-form solution for the critical drawing stress is developed based on an assumed nonlinear plastic stress field and the deformation theory of plasticity. The theory properly accounts for the plastic anisotropy of the aluminum sheets and the critical drawing stress at the onset of wrinkling is also compared against the one employing the flow theory of plasticity. The predicted critical bifurcation stress and the wave numbers are compared to those obtained by Seniorʹs one-dimensional theory. It is demonstrated that there is a strong dependency of the critical bifurcated stress at the onset of wrinkling on the shear stress induced on the flange. The effects of flange width, drawing ratios, material properties, strain hardening on the onset of wrinkling are investigated. The differences between the present theoretical approach and Seniorʹs theory are emphasized.
Keywords
Wrinkling , deep drawing process , elastoplastic analysis , Bifurcation , Plastic wrinkling
Journal title
International Journal of Mechanical Sciences
Serial Year
2001
Journal title
International Journal of Mechanical Sciences
Record number
1418264
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