Effects of processing parameters on mechanical, material flow and wear behaviour of friction stir welded 6101-T6 and 7075-T651 aluminium alloys

Olatunji P. Abolusoro; Esther T. Akinlabi

doi:10.1051/mfreview/2019026

Home

All issues

Volume 7 (2020)

Manufacturing Rev., 7 (2020) 1

References

Open Access

Issue		Manufacturing Rev. Volume 7, 2020


Article Number		1
Number of page(s)		14
DOI		https://doi.org/10.1051/mfreview/2019026
Published online		07 January 2020

W.M. Thomas ED, J.C. Nicolas, M.G. Needham, P. Murch, C. D. Templesmith, US Patent Application. 1995; No. 546031 [Google Scholar]
W.M. Thomas ED, J.C. Nicolas, M.G. Needham, P. Murch, C. D. Templesmith, Int. patent Application. 1991. No.PCT/GB92/02203 [Google Scholar]
R.S. Mishra, Z.Y. Ma, Friction stir welding and processing, Mater. Sci. Eng. 50 (2005) 1–78 [CrossRef] [Google Scholar]
G. Buffa, L. Donati, L. Fratini, L. Tomesani, Solid-state bonding in extrusion and FSW: Process mechanics and analogies, J. Mater. Process. Technol. 177 (2006) 344–7 [CrossRef] [Google Scholar]
P.H. Shah, V.J. Badheka, Friction stir welding of aluminium alloys: An overview of experimental findings − Process, variables, development and applications, Proc. Inst. Mech. Eng. Part L J. Mater. Des. Appl. 233 (2017) 1191–1226 [Google Scholar]
T.A. Esther, A. Andrews, A.A. Stephen, Effects of processing parameters on the corrosion properties of dissimilar Friction Stir Welds of aluminium and copper, Trans. Nonferrous Met. Soc. China 24 (2014) 1323–1330 [CrossRef] [Google Scholar]
M. Sivashanmugam, S. Ravikumar, T. Kumar, V. Seshagiri Rao, D. Muruganandam, A review on friction stir welding for aluminium alloys. In: Proceedings of the International Conference on Frontiers in Automobile and Mechanical Engineering − 2010, FAME-2010, IEEE, New Jersey, 2010 [Google Scholar]
S. Bocchi, M. Cabrini, G. D'Urso, C. Giardini, S. Lorenzi, T. Pastore, The influence of process parameters on mechanical properties and corrosion behaviour of friction stir welded aluminium joints, J. Manuf. Process. 35 (2018) 1–15 [CrossRef] [Google Scholar]
P. Cavaliere, A. De Santis, F. Panella, A. Squillace, Effect of welding parameters on mechanical and microstructural properties of dissimilar AA6082-AA2024 joints produced by friction stir welding, Mater. Des. 30 (2009) 609–616 [CrossRef] [Google Scholar]
P. Olatunji Abolusoro, E.T. Akinlabi. In-Process Cooling in Friction Stir Welding of Aluminium Alloys-An Overview. In: Al. MA et, editor. Advances in Material Sciences and Engineering, Lecture Notes in Mechanical Engineering, Springer Nature Singapore Pvt. Ltd., Berlin, 2020, 435–444 [CrossRef] [Google Scholar]
M.K.B. Givi, P. Asadi, Advances in Friction-Stir Welding and Processing (Elsevier, Amsterdam, 2014), 1–756 [Google Scholar]
H. Lombard, D.G. Hattingh, A. Steuwer, M.N. James, Optimising FSW process parameters to minimise defects and maximise fatigue life in 5083-H321 aluminium alloy, Eng. Fract. Mech. 75 (2008) 341–54 [CrossRef] [Google Scholar]
M.S. Han, S.J. Lee, J.C. Park, S.C. Ko, Y.B. Woo, S.J. Kim, Optimum condition by mechanical characteristic evaluation in friction stir welding for 5083-O Al alloy, Trans. Nonferrous Met. Soc. China 19 (2009) 17–22 [CrossRef] [Google Scholar]
K.A. Prabha, P.K. Putha, B.S. Prasad, Effect of tool rotational speed on mechanical properties of aluminium alloy 5083 weldments in friction stir welding, Mater. Today Proc. 5 (2018) 18535–18543 [CrossRef] [Google Scholar]
H. Aydin, A. Bayram, U. Esme, Y. Kazancoglu, O. Guven, Application of Grey Relation Analysis (Gra) and Taguchi Method for the Parametric Optimization of Friction Stir Welding (Fsw) Process, Appl. Grey. Relat. Anal. 44 (2010) 205–11 [Google Scholar]
M. Ghosh, K. Kumar, S.V. Kailas, A.K. Ray, Optimization of friction stir welding parameters for dissimilar aluminum alloys, Mater. Des. 31 (2010) 3033–3037 [CrossRef] [Google Scholar]
R. Hariharan, R.J. Golden Renjith Nimal, Friction stir welding oof dissimilar aluminium alloys (6061&7075) by using computerized numerical control machine, Middle-East J. Sci. Res. 20 (2014) 601–605 [Google Scholar]
N.M. Daniolos, D.I. Pantelis, Microstructural and mechanical properties of dissimilar friction stir welds between AA6082-T6 and AA7075-T651, Int. J. Adv. Manuf. Technol. 88 (2017) 2497–505 [CrossRef] [Google Scholar]
E.G. Cole, A. Fehrenbacher, N.A. Duffie, M.R. Zinn, F.E. Pfefferkorn, N.J. Ferrier, Weld temperature effects during friction stir welding of dissimilar aluminium alloys 6061-t6 and 7075-t6, Int. J. Adv. Manuf. Technol. 71 (2014) 643–652 [CrossRef] [Google Scholar]
J.F. Guo, H.C. Chen, C.N. Sun, G. Bi, Z. Sun, J. Wei, Friction stir welding of dissimilar materials between AA6061 and AA7075 Al alloys effects of process parameters. Mater Des. 56 (2014) 185–192 [CrossRef] [Google Scholar]
M. Koilraj, V. Sundareswaran, S. Vijayan, S.R. Koteswara Rao, Friction stir welding of dissimilar aluminium alloys AA2219 to AA5083 − Optimization of process parameters using Taguchi technique, Mater. Des. 42 (2012) 1–7 [CrossRef] [Google Scholar]
S. Rajakumar, V. Balasubramanian, Establishing relationships between mechanical properties of aluminium alloys and optimised friction stir welding process parameters, Mater. Des. 40 (2012) 17–35 [CrossRef] [Google Scholar]
K. Elangovan, V. Balasubramanian, M. Valliappan, Influences of tool pin profile and axial force on the formation of friction stir processing zone in AA6061 aluminium alloy, Int. J. Adv. Manuf. Technol. 38 (2008) 285–295 [CrossRef] [Google Scholar]
D.A. Dragatogiannis, E.P. Koumoulos, I.A. Kartsonakis, D.I. Pantelis, P.N. Karakizis, C.A. Charitidis, Dissimilar Friction Stir Welding Between 5083 and 6082 Al Alloys Reinforced With TiC Nanoparticles, Mater. Manuf. Process. 31 (2016) 2101–2114 [CrossRef] [Google Scholar]
D.A. Dragatogiannis, D. Kollaros, P. Karakizis, D. Pantelis, J. Lin, C. Charitidis, Friction Stir Welding between 6082 and 7075 Aluminum Alloys Thermal Treated for Automotive Applications, Mater. Perform. Charact. 8 (2019) [Google Scholar]
L. Won-Bae, L. Chang-Yong, K. Myoung-Kyun, Y. Jung-I1, K. Young-Jig, Y. Yun-Mo JS-B, Microstructures and wear property of friction stir welded AZ91Mg/SiC particle reinforced composite, Compos. Sci. Technol. 66 (2006) 1513–1520 [CrossRef] [Google Scholar]
R. Palanivel, P.K. Mathews, N. Murugan, I. Dinaharan, Prediction and optimization of wear resistance of friction stir welded dissimilar aluminium alloy, Proc. Eng. 38 (2012) 578–584 [CrossRef] [Google Scholar]
M.N.I. Dinaharan, Influence of friction stir welding parameters on sliding wear behaviour of AA6061/0-10 wt.% ZrB2 in-situ composite butt joints, J. Miner. Mater. Charact. Eng. 10 (2011) 1359–77 [Google Scholar]
N. Syed Khaja, Md. A. Tousef, B.C. Purna, N. Mohan, Y.A. Vidhu Kampurath, Wear behaviour of welded and non-welded samples of friction stir welding of similar and dissimilar joints of aluminium alloys, Int. J. Mech. Eng. Technol. 7 (2016) 289–299 [Google Scholar]
S. Khaja Naimuddin, T. Md, K. Vidhu, M. Asim Mohamad, Y. Ali, Analysis of Wear Behaviourof the Friction Stir Welded Jointswith Varying Track Diametersfor Non-Welded and Welded Samples, Indian J. Sci. Technol. 9 (2016) 41 [CrossRef] [Google Scholar]
G. Swaminathan, S. Sathiyamurthy, Experimental Study of Mechanical and Metallurgical Properties of Friction Stir Welded Dissimilar Aluminum Alloys, Int. J. Mech. Prod. Eng. Res. Dev. 8 (2018) 1049–1058 [Google Scholar]
M.M. Abd Elnabi, A.B. Elshalakany, M.M. Abdel-Mottaleb, T.A. Osman, A.A. El Mokadem, Influence of friction stir welding parameters onmetallurgical and mechanical properties ofdissimilar AA5454-AA7075 aluminum alloys, J. Mater. Res. Technol. 8 (2019) 1684–1693 [CrossRef] [Google Scholar]
I. Kalemba-Rec, M. Kopyściański, D. Miara, K. Krasnowski, Effect of process parameters on mechanical properties of friction stir welded dissimilar 7075-T651 and 5083-H111 aluminum alloys, Int. J. Adv. Manuf. Technol. 97 (2018) 2767–2779 [CrossRef] [Google Scholar]
S. Rajakumar, C. Muralidharan, V. Balasubramanian, Influence of friction stir welding process and tool parameters on strength properties of AA7075-T6 aluminium alloy joints, Mater. Des. 32 (2011) 535–549 [CrossRef] [Google Scholar]
A.K. Shrivastava, K.K. Singh, A.R. Dixit, Tribological properties of Al 7075 alloy and Al 7075 metal matrix composite reinforced with SiC, sliding under dry, oil lubricated, and inert gas environments, Proc. Inst. Mech. Eng. Part J. J. Eng. Tribol. 232 (2018) 693–698 [CrossRef] [Google Scholar]
F. Alshmri, H.V. Atkinson, S.V. Hainsworth, C. Haidon, S.D.A. Lawes, Dry sliding wear of aluminium-high silicon hypereutectic alloys, Wear 313 (2014) 106–116 [Google Scholar]
V. Gopi, R. Sellamuthu, S. Arul, Measurement of hardness, wear rate and coefficient of friction of surface refined Al-Cu alloy, Proc. Eng. 97 (2014) 1355–1360 [CrossRef] [Google Scholar]
U. Das, R. Das, V. Toppo, Wear behaviour study of Friction Stir Welded Dissimilar Metals: AA6101-T6 and AA6351-T6 Aluminium Alloys, IOP Conf. Ser. Mater. Sci. Eng. 377 (2018) [Google Scholar]
R. Palanivel, P. Koshy Mathews, N. Murugan, I. Dinaharan, Effect of tool rotational speed and pin profile on microstructure and tensile strength of dissimilar friction stir welded AA5083-H111 and AA6351-T6 aluminum alloys, Mater. Des. 40 (2012) 7–16 [CrossRef] [Google Scholar]
S. Ravikumar, V. Seshagiri Rao, R.V. Pranesh, Effect of Process Parameters on Mechanical Properties of Friction Stir Welded Dissimilar Materials between AA6061-T651 and AA7075-T651 Alloys, Int. J. Adv. Mech. Eng. 4 (2014) 101–114 [Google Scholar]

Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.

Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.

Initial download of the metrics may take a while.

[1] W.M. Thomas ED, J.C. Nicolas, M.G. Needham, P. Murch, C. D. Templesmith, US Patent Application. 1995; No. 546031 [Google Scholar]

[2] W.M. Thomas ED, J.C. Nicolas, M.G. Needham, P. Murch, C. D. Templesmith, Int. patent Application. 1991. No.PCT/GB92/02203 [Google Scholar]

[3] R.S. Mishra, Z.Y. Ma, Friction stir welding and processing, Mater. Sci. Eng. 50 (2005) 1–78 [CrossRef] [Google Scholar]

[4] G. Buffa, L. Donati, L. Fratini, L. Tomesani, Solid-state bonding in extrusion and FSW: Process mechanics and analogies, J. Mater. Process. Technol. 177 (2006) 344–7 [CrossRef] [Google Scholar]

[5] P.H. Shah, V.J. Badheka, Friction stir welding of aluminium alloys: An overview of experimental findings − Process, variables, development and applications, Proc. Inst. Mech. Eng. Part L J. Mater. Des. Appl. 233 (2017) 1191–1226 [Google Scholar]

[6] T.A. Esther, A. Andrews, A.A. Stephen, Effects of processing parameters on the corrosion properties of dissimilar Friction Stir Welds of aluminium and copper, Trans. Nonferrous Met. Soc. China 24 (2014) 1323–1330 [CrossRef] [Google Scholar]

[7] M. Sivashanmugam, S. Ravikumar, T. Kumar, V. Seshagiri Rao, D. Muruganandam, A review on friction stir welding for aluminium alloys. In: Proceedings of the International Conference on Frontiers in Automobile and Mechanical Engineering − 2010, FAME-2010, IEEE, New Jersey, 2010 [Google Scholar]

[8] S. Bocchi, M. Cabrini, G. D'Urso, C. Giardini, S. Lorenzi, T. Pastore, The influence of process parameters on mechanical properties and corrosion behaviour of friction stir welded aluminium joints, J. Manuf. Process. 35 (2018) 1–15 [CrossRef] [Google Scholar]

[9] P. Cavaliere, A. De Santis, F. Panella, A. Squillace, Effect of welding parameters on mechanical and microstructural properties of dissimilar AA6082-AA2024 joints produced by friction stir welding, Mater. Des. 30 (2009) 609–616 [CrossRef] [Google Scholar]

[10] P. Olatunji Abolusoro, E.T. Akinlabi. In-Process Cooling in Friction Stir Welding of Aluminium Alloys-An Overview. In: Al. MA et, editor. Advances in Material Sciences and Engineering, Lecture Notes in Mechanical Engineering, Springer Nature Singapore Pvt. Ltd., Berlin, 2020, 435–444 [CrossRef] [Google Scholar]

[11] M.K.B. Givi, P. Asadi, Advances in Friction-Stir Welding and Processing (Elsevier, Amsterdam, 2014), 1–756 [Google Scholar]

[12] H. Lombard, D.G. Hattingh, A. Steuwer, M.N. James, Optimising FSW process parameters to minimise defects and maximise fatigue life in 5083-H321 aluminium alloy, Eng. Fract. Mech. 75 (2008) 341–54 [CrossRef] [Google Scholar]

[13] M.S. Han, S.J. Lee, J.C. Park, S.C. Ko, Y.B. Woo, S.J. Kim, Optimum condition by mechanical characteristic evaluation in friction stir welding for 5083-O Al alloy, Trans. Nonferrous Met. Soc. China 19 (2009) 17–22 [CrossRef] [Google Scholar]

[14] K.A. Prabha, P.K. Putha, B.S. Prasad, Effect of tool rotational speed on mechanical properties of aluminium alloy 5083 weldments in friction stir welding, Mater. Today Proc. 5 (2018) 18535–18543 [CrossRef] [Google Scholar]

[15] H. Aydin, A. Bayram, U. Esme, Y. Kazancoglu, O. Guven, Application of Grey Relation Analysis (Gra) and Taguchi Method for the Parametric Optimization of Friction Stir Welding (Fsw) Process, Appl. Grey. Relat. Anal. 44 (2010) 205–11 [Google Scholar]

[16] M. Ghosh, K. Kumar, S.V. Kailas, A.K. Ray, Optimization of friction stir welding parameters for dissimilar aluminum alloys, Mater. Des. 31 (2010) 3033–3037 [CrossRef] [Google Scholar]

[17] R. Hariharan, R.J. Golden Renjith Nimal, Friction stir welding oof dissimilar aluminium alloys (6061&7075) by using computerized numerical control machine, Middle-East J. Sci. Res. 20 (2014) 601–605 [Google Scholar]

[18] N.M. Daniolos, D.I. Pantelis, Microstructural and mechanical properties of dissimilar friction stir welds between AA6082-T6 and AA7075-T651, Int. J. Adv. Manuf. Technol. 88 (2017) 2497–505 [CrossRef] [Google Scholar]

[19] E.G. Cole, A. Fehrenbacher, N.A. Duffie, M.R. Zinn, F.E. Pfefferkorn, N.J. Ferrier, Weld temperature effects during friction stir welding of dissimilar aluminium alloys 6061-t6 and 7075-t6, Int. J. Adv. Manuf. Technol. 71 (2014) 643–652 [CrossRef] [Google Scholar]

[20] J.F. Guo, H.C. Chen, C.N. Sun, G. Bi, Z. Sun, J. Wei, Friction stir welding of dissimilar materials between AA6061 and AA7075 Al alloys effects of process parameters. Mater Des. 56 (2014) 185–192 [CrossRef] [Google Scholar]

[21] M. Koilraj, V. Sundareswaran, S. Vijayan, S.R. Koteswara Rao, Friction stir welding of dissimilar aluminium alloys AA2219 to AA5083 − Optimization of process parameters using Taguchi technique, Mater. Des. 42 (2012) 1–7 [CrossRef] [Google Scholar]

[22] S. Rajakumar, V. Balasubramanian, Establishing relationships between mechanical properties of aluminium alloys and optimised friction stir welding process parameters, Mater. Des. 40 (2012) 17–35 [CrossRef] [Google Scholar]

[23] K. Elangovan, V. Balasubramanian, M. Valliappan, Influences of tool pin profile and axial force on the formation of friction stir processing zone in AA6061 aluminium alloy, Int. J. Adv. Manuf. Technol. 38 (2008) 285–295 [CrossRef] [Google Scholar]

[24] D.A. Dragatogiannis, E.P. Koumoulos, I.A. Kartsonakis, D.I. Pantelis, P.N. Karakizis, C.A. Charitidis, Dissimilar Friction Stir Welding Between 5083 and 6082 Al Alloys Reinforced With TiC Nanoparticles, Mater. Manuf. Process. 31 (2016) 2101–2114 [CrossRef] [Google Scholar]

[25] D.A. Dragatogiannis, D. Kollaros, P. Karakizis, D. Pantelis, J. Lin, C. Charitidis, Friction Stir Welding between 6082 and 7075 Aluminum Alloys Thermal Treated for Automotive Applications, Mater. Perform. Charact. 8 (2019) [Google Scholar]

[26] L. Won-Bae, L. Chang-Yong, K. Myoung-Kyun, Y. Jung-I1, K. Young-Jig, Y. Yun-Mo JS-B, Microstructures and wear property of friction stir welded AZ91Mg/SiC particle reinforced composite, Compos. Sci. Technol. 66 (2006) 1513–1520 [CrossRef] [Google Scholar]

[27] R. Palanivel, P.K. Mathews, N. Murugan, I. Dinaharan, Prediction and optimization of wear resistance of friction stir welded dissimilar aluminium alloy, Proc. Eng. 38 (2012) 578–584 [CrossRef] [Google Scholar]

[28] M.N.I. Dinaharan, Influence of friction stir welding parameters on sliding wear behaviour of AA6061/0-10 wt.% ZrB2 in-situ composite butt joints, J. Miner. Mater. Charact. Eng. 10 (2011) 1359–77 [Google Scholar]

[29] N. Syed Khaja, Md. A. Tousef, B.C. Purna, N. Mohan, Y.A. Vidhu Kampurath, Wear behaviour of welded and non-welded samples of friction stir welding of similar and dissimilar joints of aluminium alloys, Int. J. Mech. Eng. Technol. 7 (2016) 289–299 [Google Scholar]

[30] S. Khaja Naimuddin, T. Md, K. Vidhu, M. Asim Mohamad, Y. Ali, Analysis of Wear Behaviourof the Friction Stir Welded Jointswith Varying Track Diametersfor Non-Welded and Welded Samples, Indian J. Sci. Technol. 9 (2016) 41 [CrossRef] [Google Scholar]

[31] G. Swaminathan, S. Sathiyamurthy, Experimental Study of Mechanical and Metallurgical Properties of Friction Stir Welded Dissimilar Aluminum Alloys, Int. J. Mech. Prod. Eng. Res. Dev. 8 (2018) 1049–1058 [Google Scholar]

[32] M.M. Abd Elnabi, A.B. Elshalakany, M.M. Abdel-Mottaleb, T.A. Osman, A.A. El Mokadem, Influence of friction stir welding parameters onmetallurgical and mechanical properties ofdissimilar AA5454-AA7075 aluminum alloys, J. Mater. Res. Technol. 8 (2019) 1684–1693 [CrossRef] [Google Scholar]

[33] I. Kalemba-Rec, M. Kopyściański, D. Miara, K. Krasnowski, Effect of process parameters on mechanical properties of friction stir welded dissimilar 7075-T651 and 5083-H111 aluminum alloys, Int. J. Adv. Manuf. Technol. 97 (2018) 2767–2779 [CrossRef] [Google Scholar]

[34] S. Rajakumar, C. Muralidharan, V. Balasubramanian, Influence of friction stir welding process and tool parameters on strength properties of AA7075-T6 aluminium alloy joints, Mater. Des. 32 (2011) 535–549 [CrossRef] [Google Scholar]

[35] A.K. Shrivastava, K.K. Singh, A.R. Dixit, Tribological properties of Al 7075 alloy and Al 7075 metal matrix composite reinforced with SiC, sliding under dry, oil lubricated, and inert gas environments, Proc. Inst. Mech. Eng. Part J. J. Eng. Tribol. 232 (2018) 693–698 [CrossRef] [Google Scholar]

[36] F. Alshmri, H.V. Atkinson, S.V. Hainsworth, C. Haidon, S.D.A. Lawes, Dry sliding wear of aluminium-high silicon hypereutectic alloys, Wear 313 (2014) 106–116 [Google Scholar]

[37] V. Gopi, R. Sellamuthu, S. Arul, Measurement of hardness, wear rate and coefficient of friction of surface refined Al-Cu alloy, Proc. Eng. 97 (2014) 1355–1360 [CrossRef] [Google Scholar]

[38] U. Das, R. Das, V. Toppo, Wear behaviour study of Friction Stir Welded Dissimilar Metals: AA6101-T6 and AA6351-T6 Aluminium Alloys, IOP Conf. Ser. Mater. Sci. Eng. 377 (2018) [Google Scholar]

[39] R. Palanivel, P. Koshy Mathews, N. Murugan, I. Dinaharan, Effect of tool rotational speed and pin profile on microstructure and tensile strength of dissimilar friction stir welded AA5083-H111 and AA6351-T6 aluminum alloys, Mater. Des. 40 (2012) 7–16 [CrossRef] [Google Scholar]

[40] S. Ravikumar, V. Seshagiri Rao, R.V. Pranesh, Effect of Process Parameters on Mechanical Properties of Friction Stir Welded Dissimilar Materials between AA6061-T651 and AA7075-T651 Alloys, Int. J. Adv. Mech. Eng. 4 (2014) 101–114 [Google Scholar]