论文信息 - Influence of the plasticity model in sheet metal forming simulations

Influence of the plasticity model in sheet metal forming simulations

Abstract The influence of the plasticity model adopted in sheet metal forming simulations is investigated in this work by means of a numerical study of three types of experimental tests, namely, the hemispherical punch stretching, the cup-drawing and a bending-drawing test proposed recently. The simulations are performed with the finite element code Abaqus wherein the yield criterion proposed by Ferron et al. [Int. J. Plas. 10 (1994) 431] has been implemented. For the sheet metal forming operations where the loading paths are not too sharply non-linear, as is the case of the hemispherical punch stretching and the cup-drawing tests, it is shown that the numerical predictions of strain distributions mainly depend on the yield surface shape in the stress range of interest. Furthermore, the isotropic hardening assumption provides a good fit of experiments for these tests where the sheet is submitted to relatively linear loading paths. On the other hand, the strains obtained in the bending-drawing test and, in particular, the amount of widening of the strip cannot be accounted for with the assumption of isotropic hardening. This suggests that this assumption should be relaxed to take account of the kinematic hardening effects associated with stress reversals undergone in the bending-drawing test.

Luciano Pessanha Moreira | Gérard Ferron | L. P. Moreira | G. Ferron

[1] Frédéric Barlat,et al. Crystallographic texture, anisotropic yield surfaces and forming limits of sheet metals , 1987 .

[2] F. Barlat,et al. Prediction of tricomponent plane stress yield surfaces and associated flow and failure behavior of strongly textured f.c.c. polycrystalline sheets , 1987 .

[3] R. Hill. A theory of the yielding and plastic flow of anisotropic metals , 1948, Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences.

[4] U. F. Kocks,et al. Application of polycrystal plasticity to sheet forming , 1994 .

[5] Robert H. Wagoner,et al. Experimental investigation and finite element modeling of hemispherically stretched steel sheet , 1989 .

[6] L. Bourne,et al. LX. On the correlation of the directional properties of boiled shee in tension and cupping tests , 1950 .

[7] P. Houtte,et al. The Incorporation of Texture-Based Yield Loci Into Elasto-Plastic Finite Element Programs , 1995 .

[8] Computer aided development of a bending–drawing test for thin metallic sheets , 1998 .

[9] G. Ferron,et al. A parametric description of orthotropic plasticity in metal sheets , 1994 .

[10] Frédéric Barlat,et al. Earing in cup drawing face-centered cubic single crystals and polycrystals , 1991 .

[11] B. Bacroix,et al. Finite-element simulations of earing in polycrystalline materials using a texture-adjusted strain-rate potential , 1995 .