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Home List of Titles Finite element method for sheet forming based on an anisotropic strain-rate potential and the convected coordinate system
Please use this identifier to cite or link to this item: http://hdl.handle.net/1959.3/191838
- Finite element method for sheet forming based on an anisotropic strain-rate potential and the convected coordinate system
- Yoon, J. W.; Song, I. S.; Yang, D. Y.; Chung, K.; Barlat, F.
- A variational formulation and the associated finite element (FE) equations have been derived for general three-dimensional deformation of a planar anisotropic rigid-plastic sheet metal which obeys the strain-rate potential proposed by Barlat et al. [Int. J. Plasticity 9, 1(1993)]. By using the natural convected coordinate system, the effect of geometric change and the rotation of planar anisotropic axes were efficiently considered. In order to check the validity of the present formulation, a cylindrical cup deep drawing test was modeled for a 2008-T4 aluminum alloy sheet sample. Eating simulations were performed and planar anisotropic material properties were experimentally determined. Even though quantitative agreement was not fully achieved, reasonably good agreement was found between the FE simulation and the experiment in thickness strain distribution and caring. No numerical difficulty due to planar anisotropy was encountered, and the computational procedure was found to be very stable, requiring only moderate computational time. The results have shown that the present formulation for planar anisotropic deformation can provide a good basis for the analysis of sheet metal forming processes for planar anisotropic materials, especially for aluminum alloy sheets.
- Publication type
- Journal article
- International Journal of Mechanical Sciences, Vol. 37, no. 7 (Jul 1995), pp. 733-752
- Publication year
- FOR Code(s)
- 0102 Applied Mathematics; 0905 Civil Engineering; 0913 Mechanical Engineering
- Convected coordinate system; Finite element method; Planar anisotropy; Sheet forming; Sheet metal; Strain rate potential
- Publisher URL
- Copyright © 1995 Elsevier Science Ltd. All rights reserved.
- Peer reviewed