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Finite element simulations of sheet-metal forming processes for planar-anisotropic materials

✍ Scribed by S. Fromentin; M. Martiny; G. Ferron; Z. Tourki; L.P. Moreira; G. Ferran

Publisher
Elsevier Science
Year
2001
Tongue
English
Weight
235 KB
Volume
43
Category
Article
ISSN
0020-7403

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✦ Synopsis

Sheet-metal forming simulations are made using a plane-stress yield function proposed by Ferron et al. for orthotropic sheets. Following the general method for the integration of rate-independent plasticity models, the yield function has been implemented in the implicit Abaqus=Standard ΓΏnite element code. Simple forming operations are simulated, such as the hemispherical punch test and the cup drawing test.

The combined e ects of rheological and tribological parameters on the strain distributions and the limits to formability are analysed, and discussed in relation with improved descriptions of the yield surface. Also, the magnitude of ears predicted for the cup drawing test is compared with experimental values on tin-plate steel.

πŸ“œ SIMILAR VOLUMES

A finite-element analysis of sheet metal
A finite-element analysis of sheet metal forming processes
✍ Tze-Chi Hsu; Chan-Hung Chu πŸ“‚ Article πŸ“… 1995 πŸ› Elsevier Science 🌐 English βš– 438 KB

A computational method based on the membrane theory for the analysis of axisymmetric sheet metal forming processes such as punch stretching, deep drawing and hydroforming is presented. The elastic-plastic finite element approach is based on the flow rule associated with Hill's quadratic yield criter