Authors: S. Onoda, S. Yoshihara, B. J. MacDonald, Y. Okude

Abstract:

Aluminum alloy sheets have several advantages such as the lightweight, high-specific strength and recycling efficiency. Therefore, aluminum alloy sheets in sheet forming have been used in various areas as automotive components and so forth. During the process of sheet forming, wrinkling which is caused by compression stress might occur and the formability of sheets was affected by occurrence of wrinkling. A few studies of uniaxial compressive test by using square tubes, pipes and sheets were carried out to clarify the each wrinkling behavior. However, on uniaxial compressive test, deformation behavior of the sheets hasn-t be cleared. Then, it is necessary to clarify the relationship between the buckling behavior and the forming conditions. In this study, the effect of dimension of the sheet in the buckling behavior on compression test of aluminum alloy sheet was cleared by experiment and FEA. As the results, the buckling deformation was classified by three modes in terms of the distribution of equivalent plastic strain.

Keywords: Sheet forming, Compression test, Aluminum alloy sheet, Buckling behavior

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1058655

Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 1757

References:

[1] M. Kadkhodayan and F. Moayyedian, "Analytical elastic-plastic study on flange wrinkling in deep drawing process," Scientia Iranica, Mechanical Engineering, vol.18, Jan, 2011, pp.250-260
[2] G.Y. Zhao, Y.L. Liu andC.S. Dong, "Analysis of wrinkling limit of rotary-draw bending process for thin-walledrectangular tube," Journal of Materials Processing Technology, vol.210, Mar, 2010, pp.1224-1231
[3] Christian Mittelstedt, "Closed-form analysis of the buckling loads of uniaxially loaded blade-stringer-stiffened composite sheets considering periodic boundary conditions," Thin-Walled Structures, vol.45, Apr, 2007, pp.371-382
[4] Umut Topal and U mit Uzman, "Optimum design of laminated composite sheets to maximize buckling load using MFD method," Thin-Walled Structures, vol.45 Aug, 2007, pp. 660-669
[5] Hongzhi Zhong and Chao Gu, "Buckling of symmetrical cross-ply composite rectangular sheets," Composite Structure, vol.80, Apr, 2006,pp. 42-48
[6] Makarand G.Joshi and Sherrill B.Biggers,Jr, "Thickness optimization for maximum buckling loads in composite laminated sheet," Composites part, vol.27, Jun, 1995, pp.105-114
[7] Y.G. Liu and M.N. Pavlovi'c, "A generalized analytical approach to the buckling of simply-supported rectangular sheets under arbitrary loads," Engineering structure, vol. 30, Jul, 2007, pp. 1346-1359
[8] Xinwei Wang_, Xinfeng Wang and Xudong Shi, "Accurate buckling loads of thin rectangular sheets under parabolic edge compressions by the differential quadrature method," Inter of Mechanical Science, vol.49, Oct, 2006, pp. 447-453
[9] Xinwei Wang, Lifei Gan and Yihui Zhang, "Differential quadrature analysis of the buckling of thin rectangular sheets with cosine-distributed compressive loads on two opposite sides," Advances in Engineering Software, vol.39, May, 2007, pp. 497-504
[10] Seong-Min Kim, "Buckling and vibration of a sheet on elastic foundation subjected to in-plane compression and moving loads," Inter Journal of Solids and Structures, vol.41, Jun, 2004 pp.5647-5661
[11] M. Eisenberger and A. Alexandrov, "Buckling loads of variable thickness thin isotropic sheets," Thin-Walled Structures, vol.41, Feb, 2003, pp.871-889
[12] J. Rhodes, "Some observations on the post-buckling behaviour of thin sheets and thin-walled members," Thin-Walled Structures, vol.41 2003, pp.207-226
[13] Le-Chung Shiau, Shih-Yao Kuo and Cheng-Yuan Chen, "Thermal buckling behavior of composite laminated sheets," Composite Structures, vol.92, Aug, 2009, pp.508-514
[14] Hurang Hu, Ashraf Badir and Ayo Abatan, "Buckling behavior of a graphite/epoxy composite sheet under parabolic variation of axial loads," Inter Journal of Mechanical Sciences, vol.45, Aug, 2003, pp.1135-1147
[15] M. Elgaaly, "Post-buckling behavior of thin steel sheets using computational models," Advances in Engineering Software, vol.31, 2000, pp.511-517
[16] F. Guarracino, "Considerations on the numerical analysis of initial post-buckling behaviour in sheets and beams," Thin-Walled Structures, vol.45, Sep, 2007, pp.845-848
[17] Mei-Wen Guo, Issam E. Harik and Wei-Xin Ren, "Buckling behavior of stiffened laminated sheets," Inter Journal of Solids and Structures. Vol.39, Feb, 2002, pp.3039-3055
[18] H.R. Ovesy and H. Assaee, "An investigation on the post-buckling behavior of symmetric cross-ply laminated sheets using a semi-energy finite strip approach," Composite Structures, vol.71, 2005, pp.365-370