Numerical and Experimental Investigation of Thickness Distribution in Hydromechanical Deep Drawing Process of Square Parts
Subject Areas :Farzad Rahmani 1 , Seyed Jalal Hashemi 2
1 - Department of Mechanical Engineering, Kar Higher Education Institute, Qazvin, Iran
2 - Department of Mechanical Engineering, Faculty of Enghelab-e Eslami, Tehran Branch, Technical and Vocational University (TVU), Tehran, Iran
Keywords:
Abstract :
[1] Amino, H. and Nakagawa, T.1988. Application of Hydraulic Counterpressure Fluid Forming into Car Body Sheet Metal Forming. SAE Technical paper Series 880365, Int. Congr. and Expo., Detroit, MI: 35–48.
[2] Park, D.H., Kang, S.S. and Park, S.B. 2001. A study on the improvement of formability for elliptical deep drawing processes. Journal of Material Processing Technology. 113: 662-665.
[3] Pegada, V., Chun, Y. and Santhanam, S. 2002. An Algorithm for determining the optimum blank shape for the deep drawing of aluminum cups. Journal of Material Processing Technology. 125–126: 743–750.
[4] Onder, E. and Tekkaya, A.E. 2007. Numerical simulation of various cross sectional workpieces using conventional deep drawing and hydroforming technologies. International Journal of Machine Tools & Manufufacturing. 48: 532-542.
[5] Zhang, S.H. and Danckert, J. 1998. Development of hydro-mechanical deep drawing. Journal of Material Processing Technology. 83: 14-25.
[6] Zhang, S.H., Lang, L.H., Kang, D.C., Danckert, J. and Nielsen, K.B. 2000. Hydromechanical deep-drawing of aluminum parabolic workpieces-experiments and numerical simulation. International Journal of Machine Tools & Manufacturing. 40: 1479-1492.
[7] Türköz, M., Cora, Ö.N., Gedikli, H., Dilmeç, M., Halkacı, H.S. and Koç, M. 2020. Numerical optimization of warm hydromechanical deep drawing process parameters and its experimental verification. Journal of Manufacturing Processes. 57: 344-353.
[8] Öztürk, E., Türköz, M., Halkacı, H.S. and Koç, M., 2017. Determination of optimal loading profiles in hydromechanical deep drawing process using integrated adaptive finite element analysis and fuzzy control approach. The International Journal of Advanced Manufacturing Technology. 88(9-12): 2443-2459.
[9] Liu, W., Xu, Y. and Yuan, S. 2014. Effect of pre-bulging on wrinkling of curved surface part by hydromechanical deep drawing. Procedia Engineering. 81: 914-920.
[10] Lang, L., Liu, B., Li, T., Zhao, X. and Zeng, Y. 2012. Experimental investigation on hydromechanical deep drawing of aluminum alloy with heated media. steel research international. 83(3): 230-237.
