论文信息 - Three-dimensional finite element analysis of block compression

Three-dimensional finite element analysis of block compression

Abstract Based on rigid-viscoplastic formulation three-dimensional finite element analysis was performed for block compression. Discretization of the variational form of the equilibrium equation is made with 8-node hexahedral isoparametric elements. In the treatment of the traction prescribed boundary condition, velocity dependent friction was used. Simulations of compression of simple rectangular blocks were performed for two geometries under two friction conditions for each geometry. Comparison of some of the computed results with experiments showed excellent agreement. The technique was further extended to take into account the presence of a neutral zone, occurrence of folding and lifting, and applied to the analysis of compression of a wedge-shaped block between two flat parallel dies. Again, the computed results predict the actual characteristics of deformation accurately.

J. J. Park | Shiro Kobayashi | Shiro Kobayashi

[1] V. Nagpal,et al. On the Solution of Three-Dimensional Metal-Forming Processes , 1977 .

[2] Soo-Ik Oh,et al. Finite element analysis of metal forming processes with arbitrarily shaped dies , 1982 .

[3] C. H. Lee,et al. Plastic Compression of Rectangular Blocks Between Two Parallel Platens , 1973 .

[4] R. Hill. LXVI. On the inhomogeneous deformation of a plastic lamina in a compression test , 1950 .

[5] Shiro Kobayashi,et al. A coupled analysis of viscoplastic deformation and heat transfer—I: Theoretical considerations , 1980 .

[6] Dong-Yol Yang,et al. Analysis of three-dimensional extrusion of sections through curved dies by conformal transformation , 1978 .

[7] B. L. Juneja,et al. An upper bound solution for flat tool forging taking into account the bulging of sides , 1979 .

[8] Shiro Kobayashi,et al. An approximate method for a three-dimensional analysis of rolling , 1975 .

[9] Shiro Kobayashi,et al. A coupled analysis of viscoplastic deformation and heat transfer—II: Applications , 1980 .