论文信息 - Finite element investigation on spring-back characteristics in sheet metal U-bending process

Finite element investigation on spring-back characteristics in sheet metal U-bending process

Abstract The most prominent feature of sheet metal forming process is an elastic recovery phenomenon during unloading which leads to spring-back and sidewall curl. Accordingly, it has been a crucial research subject for designing bending tools securing the dimension precision of products. However, the elastic recovery is not only associated with various tool parameters but also hard to predict accurately owing to the complex material deformation behavior. This paper aims at the numerical investigation on spring-back characteristics to the major process parameters. For this goal, we employ the updated Lagrangian thermo-elastoplastic finite element method to a plane-strain sheet metal U-bending process. A description of process formulation and finite element approximation is also presented.

[1] Chinghua Hung,et al. Finite element analysis and optimization of springback reduction: The ''double-bend'' technique , 1996 .

[2] You-Min Huang,et al. An elasto-plastic finite element analysis of sheet metal U-bending process , 1995 .

[3] Bernard Budiansky,et al. Analysis of Sheet Metal Stamping by a Finite-Element Method , 1978 .

[4] Jin-Rae Cho,et al. Thermo-elastoplastic characteristics of heat-resisting functionally graded composite structures , 2001 .

[5] H. S. Jeong,et al. Parametric investigation on the surface defect occurrence in CONFORM process by the finite element method , 2000 .

[6] M. Samuel,et al. Experimental and numerical prediction of springback and side wall curl in U-bendings of anisotropic sheet metals , 2000 .

[7] Lihua Zhu,et al. Computer simulation of the deep extrusion of a thin-walled cup using the thermo-mechanically coupled elasto-plastic FEM , 2000 .

[8] J. Z. Zhu,et al. The finite element method , 1977 .

[9] K. Bathe. Finite Element Procedures , 1995 .

[10] Shiro Kobayashi,et al. Metal forming and the finite-element method , 1989 .

[11] M. Manzan,et al. Stability characteristics of time integration schemes for finite element solutions of conduction‐type problems , 1994 .

[12] Jean-Loup Chenot,et al. An overview of numerical modelling techniques , 1998 .