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Volume 27 Issue 2
Feb.  2001
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Journal of Beijing University of Aeronautics and Astronautics  > 2001  >  27(2): 194-197.
XU Bing-kun, SHI Fa-zhong. Numerical Simulation of Springback in Sheet Metal Forming[J]. Journal of Beijing University of Aeronautics and Astronautics, 2001, 27(2): 194-197. (in Chinese)
Citation: XU Bing-kun, SHI Fa-zhong. Numerical Simulation of Springback in Sheet Metal Forming[J]. Journal of Beijing University of Aeronautics and Astronautics, 2001, 27(2): 194-197. (in Chinese)
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Numerical Simulation of Springback in Sheet Metal Forming

  • Beijing University of Aeronautics and Astronautics, School of Mechanical Engineering and Automation

  • Received Date: 05 Nov 1999
  • Publish Date: 28 Feb 2001
    Abstract
  • Springback is an inevitable phenomenon in sheet metal forming process. As an effective method to solve springback problem, numerical simulation is receiving increasing attention throughout industry and academic world. Integrated springback simulation can be divided into two steps, that is punch loading forming process simulation and punch unloading springback process simulation. The quasi-static implicit approach and dynamic explicit approach in springback simulation are described, and their advantages and disadvantages in computing springback problems are compared. A FEM model for punch loading forming process simulation and punch unloading springback process simulation is introduced and a computing example using software developed by authors is given.

     

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  • [1] Joannic D, Gelin J C. Accurate simulation of springback in 3D sheet metal forming processes. In:NUMIFORM'95. 1995. 729~734. [2] Karafillis A P, Boyce M C. Tooling design in sheet metal forming using springback calculations[J]. Int J Mech Sci, 1992, 34(2):113~131. [3] Wu Longwu. Iterative FEM die surface design to compensate for springback in sheet metal stampings. In:NUMIFORM'95. 1995.637~641. [4] 宋 黎,杨 坚,黄天泽. 板料弯曲成形的回弹分析与工程控制综述[J]. 锻压技术,1996, 21(1):18~22. [5] Shu Jawshi, Huang Chinghua. Finite element analysis and optimization of springback reduction:the "double-bend" technique[J]. Int J Mech Tools Manufacture, 1996, 36(4):423~434. [6] Mercer C D, Nagtegaal J D, Rebelo N, et al. Effective application of different solvers to forming simulations. In:NUMIFORM'95. 1995. 469~474. [7] 蒋镜昱,印雄飞. 板料成形过程的数值模拟[J].模具技术,1998(4):17~22. [8] Peng Yinghong, You Ye, Ruan Xueyu. The new calculation method of drawbead restrain force. In:NUMISHEET'99. 1999.255~260. [9] Zhou D, Wagoner R H. Development and application of sheet-forming simulation[J]. Journal of Material Processing Technology, 1995, 50(1):1~16. [10] Makinouchi A. Sheet metal forming simulation in industry[J]. Journal of Material Processing Technology, 1996, 60(1):19~26. [11] Chou Inan, Huang Chinghua. Finite element analysis and optimization of springback reduction[J]. International Journal of Machine Tools & Manufacture, 1999,39(3):517~536.
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