Browse > Article
http://dx.doi.org/10.5228/KSPP.2010.19.2.113

Effect of Process Parameters on Forming Characteristics of Flange Hydroforming Process  

Lee, H.J. (부산대학교 기계공학부/정밀정형 및 금형 가공 연구소)
Joo, B.D. (부산대학교 기계공학부/정밀정형 및 금형 가공 연구소)
Choi, M.K. (부산대학교 기계공학부/정밀정형 및 금형 가공 연구소)
Moon, Y.H. (부산대학교 기계공학부,)
Publication Information
Transactions of Materials Processing / v.19, no.2, 2010 , pp. 113-119 More about this Journal
Abstract
Hydroforming is the technology that utilizes hydraulic pressure to form tube or sheet materials into desired shapes inside die cavities. Tube hydroforming provides a number of advantages over the conventional stamping process, including fewer secondary operations, weight reduction, assembly simplification, adaptability to forming of complex structural components and improved structural strength. In many case, hydroformed parts have to be structurally joined at some point. Therefore it is useful if the hydroformed automotive parts can be given a localized attachment flange. In this study for the numerical process design FE analysis was performed with DYNAFORM 5.5. Die parting angle and circumferential expansion ratio was optimized. With optimized condition, bulge and hydroforming experiments to form flange were performed. Forming characteristic at various pressure conditions was analyzed and optimized internal pressure condition was evaluated. The results show that flanged parts can be successfully produced by tube hydroforming process.
Keywords
FEM; Flange; Tube Hydroforming; Flange Hydroforming; Flanged Tubular Parts;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
연도 인용수 순위
1 H. L. Xing, A. Makinouchi, 2001, Numerical analysis and design for tubular hydroforming, J. Mech. Sci., Vol. 43, pp. 1009-1026.   DOI
2 J. H. Oh, H. H. Choi, S. H. Park, 2008, The optimization of rear suspension using hydroforming, Trans. Mater. Process., Vol. 17, No. 7, pp. 481-485.   DOI
3 F. dohmann, Ch. Hartl, 1997, Tube hydroforming research and practical application, J. Mater. Process. Technol., Vol. 71, pp. 174-186.   DOI
4 H. Mizukoshi, H. Okada, H. Wakabayashi, 1999, Tee fitting hydraulic formability of aluminum alloy tubes, Advanced Technology of Plasticity, Vol. 2, pp. 1189-1194.
5 Yuan-Yao Qian, Dave Cattran and Medhat Karima, 1998, Towards further understanding of the mechanics of tube hydroforming, SAE p. 982276.
6 O. Kreis, P. Hein, 2001, Manufacturing system for the integrated hydroforming, trimming and welding of sheet metal pairs, J. Mater. Process. Technol., Vol. 201, pp. 49-54.
7 L. Lang, G. Gu, T. Li, X. Zhou, 2008, Numerical and experimental confirmation of the calibration stage’s effect in multi-operation sheet hydroforming using poor-formability materials, J. Mater. Process. Technol., Vol. 201, pp. 97-100.   DOI
8 L. H. Lang, Z. R. Wang, D. C. Kang, S. J. Yuan, S. H. Zhang, J. Danckert, K. B. Nielsen, 2004, Hydroforming highlights: sheet hydroforming and tube hydroforming, J. Mater. Process. Technol., Vol. 151, pp. 165-177.   DOI   ScienceOn
9 N. Asnafi, A. Skogsgardh, 2000, Theoretical and experimental analysis of stroke-controlled tube hydroforming, Mater. Sci. Eng., A, Vol. 279, pp. 95-110.   DOI   ScienceOn
10 M. Koc, T. Altan, 2002, Prediction of forming limits and parameters in the tube hydroforming process, J. Machine Tools and Manufacture, Vol. 42, pp. 123-138.   DOI