Investigation of Roll Bonding between AA5083 Strips
Subject Areas : ChemistryMohammad Sedighi 1 , mohammad heydari vini 2 , Pedram Farhadipour 3
1 - School of Mechanical Engineering, Iran University of Science and Technology, Tehran 16844, Iran
2 - department of engineering, islamic azad university of mobarakeh branch, mobarakeh, isfahan, iran
3 - School of Mechanical Engineering, Iran University of Science and Technology, Tehran 16844, Iran
Keywords: Roll bonding, solid welding, Bond strength, Peel testing,
Abstract :
Layered alloys and composite materials have become an increasingly popular in industrial development. The roll bonding (RB) process, as a solid phase method of bonding, has been widely used in manufacturing large layered strips. In this study, aluminum alloy (AA 5083) strips were roll bonded at warm and cold temperatures. The effects of the rolling parameters such as the amount of plastic deformation by rolling and rolling temperature that create successful bonds on the bond strength and the threshold deformation between two layer strips of AA 5083/ AA 5083 were investigated. The bond strength was evaluated by the peeling test. It was found that by increasing the rolling temperature or thickness reduction, the peel strengths of the bonds increased and successful bonds with higher strength were created. Also, the threshold thickness reduction decreased with increasing the rolling temperature. Moreover, the interfaces of laminates were studied by scanning electron microscopy (SEM) in order to investigate the bonding quality.
[1] N. Bay, ̋ Cold welding, part 2, process variants and applications̏, met. Construct. Vol.8, 1986, pp. 486–490.
[2] A. Lilleby, O. Grong, H. Hemmer, “Experimental and Finite Element Studies of Cold Pressure Welding of Commercial Purity Aluminum by Divergent Extrusion”, Mater. Sci. Eng. A, Vol. 527, 2009, pp. 179-186
[3] C. Huang, M. Chiang, C.J. Kuo, Y., Chen, A. Yeh, “Uninterrupted Production of Metal Coils by Making Successive Joints with Roll Bonding Technique”, Mater. Trans., JIM, Vol. 50(8), 2009, p. 2124–2126.
[4] M.R. Rezaei, M. R.Toroghinejad, F. Ashrafizadeh, “Production of nano-grained structure in 6061 aluminum alloy strip by accumulative roll bonding”, Mater. Sci. Eng. A, Vol. 529, 2011, pp. 442–446.
[5] H. D. Manesh, A.K. Taheri, “Theoretical and experimental investigation of cold rolling of tri-layer strip”, J. Mater. Process. Technol., Vol. 166, 2005, pp. 163–172.
[6] Y.A.N Hong-zhi, “Key factors for warm rolled bond of 6111-aluminium strip”, T. Nonferr. Metal. Soc., Vol. 16, 2006, pp. 84-90.
[7] M. Abbasi, M.R. Toroghinejad, “Effects of processing parameters on the bond strength of Cu / Cu roll-bonded strips”, J. Mater. Process. Technol., Vol. 210, 2010, pp. 560–563.
[8] K.S. Suresh, S. Sinha, A. Chaudhary, S. Suwas, “ Development of microstructure and texture in Copper during warm accumulative roll bonding”, Mater. Charact., Vol. 70, 2012, pp. 74–82.
[9] M. Eizadjou, H. Danesh Manesh, K. Janghorban, “Investigation of roll bonding between aluminum alloy strips”, Mater. Des., Vol. 29(4), 2008, pp. 909–913.
[10] H.D. Manesh, A. Mashreghi, S.E. Haghighi, A. Khajeh, “Investigation of cold pressure welding of aluminum powder to internal surface of aluminum tube”, Mater. Des., Vol. 30(3), 2009, pp. 723–726.
[11] G. Krallics, J.G. Lenard, “An examination of the accumulative roll-bonding process”, J. Mater. Process. Technol., Vol. 152, 2004, pp. 154–161
[12] M. R. Toroghinejad, F. Ashrafizadeh, R. Jamaati, “On the use of accumulative roll bonding process to develop nanostructured aluminum alloy 5083”, Mater. Sci. Eng. A, Vol. 561, 2013, pp. 145–151.
[13] H. Danesh Manesh, A. Karimi Taheri, “Assessment of surface bonding strength in Al clad steel strip, using electrical receptivity and peeling tests”, Mater. Sci. Tech., 2006, Vol. 22(6), pp. 634–40.
[14] J.M. Parks, “Recrystallization in welding”, Weld J., 1953, pp. 209–221.
[15] H. Granjun, Fundamental of welding metallurgy, Abington Publishing, Cambridge, 1991.
[16] M. Alizadeh, “Effects of temperature and B4C content on the bonding properties of roll-bonded aluminum strips” J. Mater. Sci., Vol. 47, 2012, pp. 4689–4695.
[17] A. Salimi, E. Borhani, E. Emadoddin, “Evaluation of Mechanical Properties and Structure of 1100-Al Reinforced with Zro2 Nano-particles via Accumulatively Roll-bonded”, Procedia Mater. Sci., Vol. 11, 2003, pp. 67–73.
[18] M.R. Toroghinejad, R. Jamaati, A. Nooryan, H. Edris, “Hybrid composites produced by anodizing and accumulative roll bonding (ARB) processes”, Ceram. Int., Vol. 40, 2014, pp. 1–9.
[19] N.D. Lukaschkin, A.P. Borissow, A.I. Erlikh, “the system analysis of metal forming technique in welding processes”, J. Mater. Proc. Technol., Vol. 66, 1997, pp. 264–269.
[20] M. Reihanian, M. Jalili Shahmansouri, M. Khorasanian, “High strength Al with uniformly distributed Al2O3 fragments fabricated by accumulative roll bonding and plasma electrolytic oxidation”, Mater. Sci. Eng. A, Vol. 640(1), 2015, pp. 95–199.