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http://dx.doi.org/10.5228/KSPP.2008.17.6.393

Study on Springback Control in Reconfigurable Die Forming  

Ha, S.M. (한국과학기술연구원, 재료기술연구본부)
Park, J.W. (한국과학기술연구원, 재료기술연구본부)
Kim, T.W. (한양대학교 자동차공학과)
Publication Information
Transactions of Materials Processing / v.17, no.6, 2008 , pp. 393-400 More about this Journal
Abstract
Springback is one of the most difficult phenomena to analyze and control in sheet forming. Most of traditional springback control methods rely on experiences of skilled workers in industrial fields. This study focuses on prediction and generation of optimum reconfigurable die surfaces to control shape errors originated by springback. For this purpose, a deformation transfer function(DTF) was combined with finite element analysis of the springback in the 2D sheet forming model of elastic-perfectly plastic materials under the condition without blank holder. The results showed shape errors within 1% of the objective shape, which were comparable with analytically predicted errors. In addition to this theoretical analysis, DTF method was also applied to 2D and 3D sheet forming experiments. The experimental results showed ${\pm}0.5$ mm and ${\pm}1.0$ mm shape error distribution respectively, demonstrating that reconfigurable die surfaces were predicted well by the DTF method. Irrespective of material properties and sheet thickness, the DTF method was applicable not only to FEM simulation but also to 2D and 3D elasto-reconfigurable die forming. Consequently, this study shows that springback can be controlled effectively in the elasto-RDF system by using the DTF method.
Keywords
Reconfigurable Die Forming; Springback Control; Sheet Metal Forming; Deformation Transfer Function;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
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1 K. B. Ousterhout, 1991, Design and Control of a Flexible Process for Three Dimensional Sheet Metal Forming, Ph.D. Thesis, MIT
2 P. D. Welch, 1967, The use of fast Fourier transform for the estimation of power spectra: A method based on time averaging over short, modified periodograms, IEEE Trans. Audio, Vol. 15, No. 2, pp. 70-73   DOI
3 A. Parris, 1987, Precision stretch forming of metal for precision assembly, Ph.D. Thesis, MIT
4 K. P. Li, W. P. Carden, R. H. Wagoner, 2002, Simulation of Springback, International Journal of Mechanical Sciences, Vol. 44, No. 1, pp. 103-122   DOI   ScienceOn
5 Y. E. Ling, H. P. Lee, B. T. Cheok, 2005, Finite element analysis of springback in L-bending of sheet metal, Journal of Materials Processing Technology Vol. 168, No. 2, pp. 296-302   DOI   ScienceOn
6 A. Andersson, 2004, Comparison of sheet-metalforming simulation and try-out tools in the design of a forming tool, J. Eng. Design, Vol. 15, No. 6, pp. 51-561
7 Z. R. Qian, M. Z. Li, F. X. Tan, 2007, The analysis on the process of multi-point forming for dish head, Journal of Materials Processing Technology, Vol. 187-188, pp. 471-475   DOI   ScienceOn
8 D. F. Walczyk and D. E. Hardt, 1998, Design and Analysis of Reconfigurable Discrete Die for Sheet Metal Forming, Journal of Manufacturing Systems, Vol. 17, No. 6, pp.436-454   DOI
9 J. W. Park, 2004, Multi-Point Sheet Forming Using Elastomer, Transactions of Materials Processing, Vol. 13, No. 2, pp. 129-136   DOI   ScienceOn
10 R. D. Webb and D. E. Hardt. 1991, A Transfer Function Description of Sheet Metal Forming for Process Control, Journal of Engineering for Industry, Vol. 113, pp. 44-52