Finite element analysis of effect of interface lubrication on tube-compression of thin-walled part in viscous pressure forming
来源期刊:中国有色金属学报(英文版)2011年第z2期
论文作者:WANG Zhong-jin LI Ji-guang
文章页码:445 - 449
Key words:tube-compression; interface lubrication; thin-walled part; viscous medium forming
Abstract: The forming process was simulated numerically by ANSYS/LS-DYNA. The material flowing of tube-blank in the tube-compression process and the effect of the friction coefficient between die and tube-blank on the forming process were analyzed. The research results show that the flowing direction of tube-blank and the flowing direction of viscous mediums are coincident. When the friction coefficient between die and tube-blank is less than 0.12, there is no significant effect on the forming process. When the friction coefficient between die and tube-blank is greater than 0.12, the effect on the forming process is becoming more and more severe constantly with the increase in the friction coefficient between die and tube-blank. Therefore, improving the interface lubrication conditions is beneficial to increasing the forming limit.
WANG Zhong-jin, LI Ji-guang
(School of Materials Science and Engineering, Harbin Institute of Technology, Harbin 150001, China)
Abstract:The forming process was simulated numerically by ANSYS/LS-DYNA. The material flowing of tube-blank in the tube-compression process and the effect of the friction coefficient between die and tube-blank on the forming process were analyzed. The research results show that the flowing direction of tube-blank and the flowing direction of viscous mediums are coincident. When the friction coefficient between die and tube-blank is less than 0.12, there is no significant effect on the forming process. When the friction coefficient between die and tube-blank is greater than 0.12, the effect on the forming process is becoming more and more severe constantly with the increase in the friction coefficient between die and tube-blank. Therefore, improving the interface lubrication conditions is beneficial to increasing the forming limit.
Key words:tube-compression; interface lubrication; thin-walled part; viscous medium forming