Non-constant coefficient friction models in 3d simulation of drawing processes
Abstract
Different friction models: the classic one proposed by Amontons- Coulomb (AC) with a constant friction coefficient, a three-parameter model proposed by Wriggers et al. [9], and a model based on the concept of 'work-hardening' proposed by de Souza Neto et al. [8], are applied to the 3-D square-cup drawing and S-rail stamping FE simulations. The benchmark problems used during NUMISHEET'93 for a cup drawing and NUMISHEET'96 for S-rail stamping were simulated here. The results obtained for these three models are presented to illustrate the influence of the friction model on the drawing process.
References
[1] A. Curnier. A theory of friction. Int. J. Solids Structures, 20: 637-647, 1984.
[2] L. Demkowiwicz, J.T. Oden. On same existence and uniqueness results in contact problems with non-local friction. Nonlinear Anal. Theory Meth. Appl., 10: 1075-1093, 1984.
[3] T.J.R. Hughes, R.L. Taylor, J.L. Sackman, A. Curnier, W. Kanoknukulchai. A finite element method for a class of contact-impact problems. Comp. Meth. Appl. Mech. Engng., 8: 249-276, 1976.
[4] R. Michałowski, Z. Mróz. Associated and nonassociated sliding rules in contact friction problems. Arch. Mech., 30: 259-276, 1978.
[5] J. Rońda, KW. Colville. Comparison of friction models for deep-drawing. GAMM-Mitteilungen, 18: 39-59, 1995.
[2] L. Demkowiwicz, J.T. Oden. On same existence and uniqueness results in contact problems with non-local friction. Nonlinear Anal. Theory Meth. Appl., 10: 1075-1093, 1984.
[3] T.J.R. Hughes, R.L. Taylor, J.L. Sackman, A. Curnier, W. Kanoknukulchai. A finite element method for a class of contact-impact problems. Comp. Meth. Appl. Mech. Engng., 8: 249-276, 1976.
[4] R. Michałowski, Z. Mróz. Associated and nonassociated sliding rules in contact friction problems. Arch. Mech., 30: 259-276, 1978.
[5] J. Rońda, KW. Colville. Comparison of friction models for deep-drawing. GAMM-Mitteilungen, 18: 39-59, 1995.
Published
2023-03-01
Issue
pp. 609-628
Section
Articles
License
Copyright © The Author(s).
This work is licensed under the Creative Commons Attribution 4.0 International CC BY 4.0.
How to Cite
Rańda, J., Colville, K. W., & Mahrenholtz, O. (2023). Non-constant coefficient friction models in 3d simulation of drawing processes. Computer Assisted Methods in Engineering and Science, 8(4), 609-628. https://cames3.ippt.pan.pl/index.php/cames/article/view/1163
