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Effects of Welding Parameters on FSSW: Experimental and Numerical Study

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
In this paper, the Aluminum A6060-T5 plates of thickness 2 mm was friction stir spot welded (FSSW), and the effects of welding parameters (rotation speed, plunge speed and distance from the center of pin) on the temperature variation of the joints were investigated. The experimental design method is used to investigate the effects of welding parameters in order to achieve an optimization of the FSSW process. This optimization allows the development of experimental results and may help to better understand the complexity of the phenomena resulting from contact parts/tool during the stirring process.
Twórcy
autor
  • University of Sidi Bel Abbès, Laboratory of Materials and Reactive Systems – LMSR. Bp. 89, City Larbi Ben Mhidi. Sidi Bel Abbes, Algeria
  • University of Sidi Bel Abbès, Laboratory of Materials and Reactive Systems – LMSR. Bp. 89, City Larbi Ben Mhidi. Sidi Bel Abbes, Algeria
  • University of Sidi Bel Abbès, Laboratory of Materials and Reactive Systems – LMSR. Bp. 89, City Larbi Ben Mhidi. Sidi Bel Abbes, Algeria
autor
  • Djillali Liabes University of Sidi Bel-Abbes, Mechanics and Physics of Materials Laboratory, Bp89 City Larbi Ben M‘Hidi, Sidi Bel-Abbes, Algeria
autor
  • University of Sidi Bel Abbès, Laboratory of Materials and Reactive Systems – LMSR. Bp. 89, City Larbi Ben Mhidi. Sidi Bel Abbes, Algeria
Bibliografia
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  • [3] D. Mitlin, V. Radmilovic, T. Pan, Z. Feng, M. Santella, Structure--Properties Relations in Spot Friction Welded 6111 T4 Aluminum, TMS Ann. Mee, San Francisco (2005).
  • [4] T. Pan, A. Joaquin, E .Wilkosz, L. Reatherford, J. Nicholson, Z. Feng, M. Santella, Spot Friction Welding for Sheet Aluminum Joining, 5th Int Sym on F S W, P. Threadgill, ed., The W. Inst., Metz, France, Paper No. 11A-1. (2004).
  • [5] R. Sakano, K. Murakami, K .Yamashita, T. Hyoe, M. Fujimoto, M. Inuzuka, Y. Nagao, H. Kashiki, Development of Spot FSW Robot System for Automobile Body Members, Proc.of the 3rd. Int. S of FSW, Kobe, Japan (2001).
  • [6] A. Gerlich, P. Su, T. North, Peak Temperatures and Microstructures in Aluminum and Magnesium Alloy Friction Stir Spot Welds, Sc. and Tech. of Wel. and Joi. 10, 647-652 (2005).
  • [7] P. Su, A. Gerlich, T. North, G. Bendzsak, Energy Utilization and Generation during Friction Stir Spot Welding, Sc. and Tech. of Wel. and Joi. 163-169 (2006).
  • [8] S. Hyung-Seop, J. Yoon-Chul, Characteristics of friction stir spot welding of Zr-based bulk metallic glass sheets, J. of Al and Compounds 504S, S279-S282 (2010).
  • [9] L. Fratini, A. Barcellona, G. Buffa, D. Palmeri, Friction stir spot welding of AA6082-T6: influence of the most relevant proces parameters and comparison with classic mechanical fastening techniques, Pro. of the Ins. of Mec. Eng. 221, Part B, J. Eng. Man. 1111-1118 (2007).
  • [10] P. Tsung-Yu, et al, Spot Friction Welding for Sheet Aluminum Joining, F. Mot. Com., Dearborn, Michigan 48124, U.S.A. (2007).
  • [11] M. Kemal Kulekci, O.E. Ugur Esme, Experimental comparison of resistance spot welding and friction-stir spot welding processes for the en aw 5005 aluminum alloy, MTAEC9 45 (5) 395 (2011).
  • [12] S. W. Baek, D.H. Choi, C.Y. Lee, B.W. Ahn, Y.M. Yeon, K. Song, S.B. Jung, Mater. Trans. 51, 1044 (2010).
  • [13] Md. Abu Mowazzem Hossain, Md. Tariqul Hasan, S. Tae Hong, M. Miles, H. Cho, H.H. Nam, Friction Stir Spot Welded Joints of 409L Stainless Steels Fabricated by a Convex Shoulder Tool, Met. Mater. Int. 19, 6, 1243-1250 (2013).
  • [14] M. K. Bilici, Effect of tool geometry on friction stir spot welding of polypropylene sheets, exp. Poly. Letters 6, 10, 805-813- to be updated. (2012).
  • [15] M. K. Bilici, A.I. Yukler, Effects of welding parameters on friction stir spot welding of high density polyethylene sheets, Mater. And D. 33, 545-550 (2012).
  • [16] 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. and D. 30, 609-616 (2009).
  • [17] D. A. Wang. S. C. Lee, Microstructures and failure mechanisms of Friction Stir Spot Welds of aluminium 6061-T6 sheets, J. of Mat. Pro. Tech. 186 (2007).
  • [18] M. Merzoug, M. Mazari, L. Berrahal, A. Imad, Parametric studies of the process of friction spot stir welding of aluminium 6060-T5 alloys, Mater. Des. 31 (6), 3023-3028 (2010).
  • [19] R. S. Mishra, Z. Y. Ma, Friction stir welding and processing, Mater. Sci. and Eng. 50, 1-78 (2005).
  • [20] S. Lathabai, M. J. Painter, G. M. D. Cantin, V. K. Tyagi, Friction spot joining of an extruded Al-Mg-Si alloy, Scri. Mater. 55, 899-902 (2006).
  • [21] Y. Tozaki, Y. Uematsu, K. Tokaji, Effect of tool geometry on microstructure and static strength in friction stir spot welded aluminium alloys, Inter. J. of Mac. Tools and Man. 47, 2230-2236 (2007).
  • [22] D. Klobčar, J. Tušek, A. Skumavc, A. Smolej, Parametric study of friction stir spot welding of aluminium alloy 5754, METABK 53 (1) 21-24 (2014).
  • [23] Y. Uematsu, K. Tokaji, Comparison of fatigue behaviour between resistance spot and friction stir spot welded aluminium alloy sheets, Sci. Technol. Weld. Join. 14, 62-71 (2009).
Uwagi
PL
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-450da393-a45c-4980-b830-097a7a677a3b
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