Abstract
In this work, forming limit diagram for aluminum alloy 3105 is performed experimentally using out of plane test. In addition, using ductile fracture criteria and finite element simulation, forming limit diagram of aluminum alloy 3105 is performed numerically. Finally, it is shown that the results obtained from numerical prediction are in good agreement with experimental results.
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References
S. P. Keeler and W. A. Bakhofen (1964) Plastic instability and fracture in sheet stretched over rigid punches, ASM Transactions Quarterly,56:25-48.
G. M. Goodwin (1968) Application of strain analysis to sheet metal forming in the press shop, SAE paper, No. 680093.
A. Barata Da Rocha, et al. (1985) Prediction of the forming limit diagrams of anisotropic sheets in linear and non-linear loading, Mater. Sci. Eng, 68:151-155.
G. Beveridge and R. Schechter (1970) Optimization Theory and Practice, McGraw-Hill, New York City, NY.
S.E. Clift, P. Hartley, C.E.N. Sturgess, and G.W. Rowe (1990) Fracture Prediction in Plastic deformation Processes, Int. J. Mech. Sci.,32:1–17.
H. Takuda, K. Mori, H. Fujimoto, and N. Hatta (1996) Prediction of Forming Limit in Deep Drawing of Fe/Al Laminated Composite Sheets Using Ductile Fracture Criterion, J. Mater. Process. Technol, 60: 291–296.
H. Takuda, K. Mori, and N. Hatta (1999) The Application of Some Criteria for Ductile Fracture to the Prediction of the Forming Limit of Sheet Metals, J. Mater. Proc. Tech, 95: 116–121.
H. Takuda, K. Mori, N. Takakura, and K. Yamaguchi (2000) Finite Element Analysis of Limit Strains in Biaxial Stretching of Sheet Metals Allowing for Ductile Fracture, Int. J. Mech. Sci., 42: 785–798.
A.S. Wifi, A. Adbel-Hamed, N. El- Abbasi and H. Harmoush, in: T. Abe, T. Tsuta (1996) Advances in Engineering Plasticity and its Applications, Pergamon, New York, 197- 202.
A.M. Freudenthal (1950) The Inelastic Behavior of Engineering Materials and Structures, John Wiley & Sons, NY.
M.G. Cockcroft and D.J. Latham (1968) Ductility and the Workability of Metals, J. Inst. Met., 96: 33–39.
P. Brozzo, B. Deluca, R. Rendina (1972) A new method for the prediction of formability in metal sheets, in: Proceedings of the Seventh Biennial Conference of IDDRG on Sheet Metal Forming and Formability.
A. Sadough, M. Shakeri, and B. M. Dariani (2000) Theoretical and experimental analysis of sheet metal formability limits. Rev. Metall. CIT Sci. Genie Mater.663- 670.
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Safari, M., Hoseinipour, S.J., Azodi, H.D. (2011). Experimental and Numerical Investigation of Forming Limit Diagram for AA3105. In: Proulx, T. (eds) Sensors, Instrumentation and Special Topics, Volume 6. Conference Proceedings of the Society for Experimental Mechanics Series. Springer, New York, NY. https://doi.org/10.1007/978-1-4419-9507-0_1
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DOI: https://doi.org/10.1007/978-1-4419-9507-0_1
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