Experimental and Numerical Investigation of Warm Deep Drawing Process of AA5052 Aluminum Alloy

Publish Year: 1399
نوع سند: مقاله ژورنالی
زبان: English
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شناسه ملی سند علمی:

JR_IJMF-7-2_007

تاریخ نمایه سازی: 18 فروردین 1400

Abstract:

Aluminum alloys have a high strength-to-weight ratio and proper anti-corrosion properties that are used in the automotive, shipbuilding and aerospace industries. The major problem with forming aluminum sheets is the low formability of aluminum sheets at room temperature. Therefore, in the present study, warm deep drawing (WDD) of AA5052-O aluminum alloy sheets with a thickness of 1mm was investigated at the different forming temperatures of 25, 80, 160, and 240°C (in the two isothermal and nonisothermal conditions) and punch speeds of 260, 560 and 1950 mm min-1 using experimental tests and finite elements simulation. The finite element simulation predictions show a good agreement with the experimental data. The results showed that an increase in forming temperature and a decrease in forming speed led to a decrease in forming force and an increase in cup height. Additionally, a microstructural and experimental investigation showed that the fracture of the cup corner radii occurs in the early stages of drawing at forming temperature of 25°C whereas, by increasing the forming temperature to higher than 160°C, the drawability of aluminum sheets increases due to dynamic recovery that takes place during the WDD process.

Authors

Hamidreza Rezaei Ashtiani

School of Mechanical Engineering, Arak University of Technology, Arak, Iran

M. Ganji Arjenki

School of Mechanical Engineering, Arak University of Technology, Arak, Iran

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  • [1] J.L. Kailun Zheng, D.J. Politis, L. Wang, A review ...
  • [2] D. Schmoeckel, Metal Forming (Warm): Comparison with Hot and ...
  • [3] T.B. Huanga, Y.A. Tsaia, F.K. Chen, Finite element analysis ...
  • [4] H.S. Kim, M. Koc, J. Ni, A. Ghosh, Finite ...
  • [5] R. Ayres, Alloying aluminum with magnesium for ductility at ...
  • [6] D. Li, A. Ghosh, Tensile Deformation Behavior of Aluminum ...
  • [7] P.J. Bolt, NA.PM. Lamboo, P.J.C.M. Rozier, Feasibility of warm ...
  • [8] N. Abedrabbo, F. Pourboghrat, J. Carsley, Forming of aluminum ...
  • [9] A.H. Van Den Boogaard, J. Huétink, Simulation of Aluminum ...
  • [10] J. Mckinley, N. Abedrabbo, M.J. Worswick, M. Kozards, Effect ...
  • [11] H. Laurent, J. Coër, P.Y. Manach, M.C. Oliveira, L.F. ...
  • [12] H. Takuda, K. Mori, I. Masuda, Y. Abe, M. ...
  • [13] A.H. Van den Boogaard, J. Huétink, Simulation of aluminium ...
  • [14] H.S. Kim, M. Koç, J. Ni, Development of an ...
  • [15]       G. Palumbo, L. Tricarico, Numerical and experimental investigations on ...
  • [16] S. Yoshihara, K.I. Manabe, H. Nishimura, Effect of blank ...
  • [17] F. K. Chen, T. B. Huang, C.K. Chang, Deep ...
  • [18] H. Zein, M. El Sherbiny, M. Abd-Rabou, Thinning and ...
  • [19] H. Takuda, K. Mori, T. Masachika, E. Yamazaki, Y. ...
  • [20] N. Kotkunde, A. Badrish, A. Morchhale, P. Takalkar, S.K. ...
  • [21] S.S. Panicker, K.S. Prasad, G. Sawale, S. Hazra, B. ...
  • [22] A.S. Takalkar, L.B.M. Chinnapandi, Deep drawing process at the ...
  • [23] M.A.M. Basril, M. Azuddin, I.A. Choudhury, The Effect of ...
  • [24] Y. Vahidshad, M. Ayaz, Numerical and Experimental Investigation of ...
  • [25] L.M. Ren, S.H. Zhang, G. Palumbo, D. Sorgente, L. ...
  • [26] S. Mahabunphachai, M. Koç, Investigations on forming of aluminum ...
  • [27] G.R. Johnson, W.H. Cook, A Constitutive Model and Data ...
  • [28] S.S. Panicker, K.S. Prasad, S. Basak, S.K. Panda, Constitutive ...
  • [29] G.R. Johnson, W.H. Cook, Fracture characteristics of three metals ...
  • [30] R. Zeng, F. Ma, L. Huang, J. Li, Investigation ...
  • [31] S.P. Patil, K.G. Prajapati, V. Jenkouk, H. Olivier, B. ...
  • [32] T. Naka, F. Yoshida, Deep drawability of type 5083 ...
  • [33] R. Abbaschian, R. E. Reed-Hill, Physical Metallurgy Principles, Cengage ...
  • [34] Y. Li, L. Chen, J. Tang, G. Zhao, C. ...
  • [35] L.E. Murr, B. H. Maddala, Comparison of recovery, recrystallization, ...
  • [36] H.D. Merchant, W. Liu, L.A. Giannuzzi, J.G. Morris, Grain ...
  • [37] A. Dhal A, S.K. Panigrahi, Insight into the microstructural ...
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