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Tytuł artykułu

Characterization of dynamic behaviour of short circuit in pulsed Gas Metal Arc Welding of aluminium

Wybrane pełne teksty z tego czasopisma
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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Purpose: This paper studies dynamic characteristics of short circuit in the pulsed current gas metal arc welding (GMAW-P). Design/methodology/approach: Welding experiments with different values of pulsing parameter and simultaneous recording of high speed camera pictures and welding signals (such as current and voltage) were used to identify different short circuit conditions in GMAW-P. The investigation is based on the synchronization of welding signals and high speed camera to characterize different types of short circuit occurring in GMAW-P system. The behaviour of short circuit under the influence of different pulsing conditions is also investigated. Findings: It will be shown in the paper that short circuit in GMAW-P occurs in different forms which can be categorized depending upon time of short circuit and phase (peak or base time) of the pulse. Further investigation involves study of the dynamic behaviour of short circuit with variation of different pulsing parameters. Research limitations/implications: The results show that by varying the pulse parameters, behaviour of short circuit in GMAW-P is changed. The pulse parameters can be adjusted to avoid occurrence of short circuit in GMAW-P. Future work should concentrate on development of practical indices in terms of pulse welding parameters for quantitative estimation of short circuit occurrence and avoidance. Originality/value: Determination of proper working parameters with GMAW-P is crucial for the appropriate selection of pulse welding parameters. As short-circuiting is common between the welding electrode and the workpiece in GMAW-P, so in order to estimate the working parameters and ensure stable GMAW-P understanding dynamic behaviour of short circuit in GMAW-P will be useful. However, in case of aluminum hardly any attempt is made to analyse the dynamic behaviour of short circuit in GMAW-P. This paper analyses the short circuit phenomenon in GMAW-P and their behaviour with varying pulsing parameters.
Rocznik
Strony
75--82
Opis fizyczny
Bibliogr. 27 poz., rys., tab., wykr.
Twórcy
autor
  • School of Engineering Systems, Queensland University of Technology, 2 George Street, Brisbane, Qld 4001, Australia
autor
  • Production Technology Center, Korea Institute of Industrial Technology, 994-32, Dongchun-dong, Yeonsu-guIncheon, 406-130, South Korea
  • School of Engineering Systems, Queensland University of Technology, 2 George Street, Brisbane, Qld 4001, Australia
Bibliografia
  • [1] S. Adolfsson, A. Bahrami, G. Bolmsjo, and I. Claesson, Welding Research Supplement, February (1999) 59-s–74-s.
  • [2] C.J.L. Allum, British Journal of Applied Physics, (1985) 18-35.
  • [3] J.C. Amson, British Journal of Applied Physics, 16 (1965), 1169-1179.
  • [4] K.Y. Benyounis, A.G. Olabi, and M.S.J. Hashmi, Journal of Materials Processing Technology, 164-165 (2005) 1113-1119.
  • [5] J.H. Choi, J.Y. Lee, and C.D. Yoo, Welding Research Supplement, October (2001) 239-s – 245-s.
  • [6] L.F. Defize, and P.C. Vander Willigen, British Welding Journal, 5 (1960), 297-305.
  • [7] S.R. Gupta, P.C. Gupta, and D. Rehfeldt, Welding Review, November (1988) 232-241.
  • [8] M.J.M. Hermans, and G. Den Ouden, The Influence of Weld Pool Oscillation on the Short Circuiting Arc Welding Process, IIW doc. 212-810-92 (1992).
  • [9] M.J.M. Hermans, M.P. Spikes, and G.den. Ouden, Welding Review International, 12(1993) 80-86
  • [10] Jang, K. C., Lee, D. G., Kuk, J. M., and Kim, I. S., Journal of Materials Processing Technology, 164-165 (2005) 1038-1045
  • [11] J.W. Kim, and S.J. Na, Proc. Inst. Of Mech. Engrs - Part B, 205(1991), 59-63
  • [12] F. Kisselevski, N. Shvydkii, Dolinenko, Mathematical Simulation of Scanning Arc in MIG-Welding, Proceedings of the International Conference, Strassbourg, 1985.
  • [13] J.F. Lancaster, The Physics of Spatter Formation during Dip Transfer GMA Welding, IIW Doc. 212-738-89 (1989).
  • [14] K. Leino, A. Nikkola, L. Vartianen, Prediction of Weld Defects using Welding Condition Data, Technical Research Center of Finland, Research Report, 264-267 (1984).
  • [15] S. Liu, T. Siewart, The Welding Journal, 2 (1990) 68.
  • [16] W. Lucas, Metal Construction, 17(1985), 431-436.
  • [17] W. Lucas, N. Ahmed, G.A. Hutt, Process Stability in MIG Welding, The Welding Research Institute Bulletin, October1984.
  • [18] H. Maruo, and Y. Hirata, Welding International, 7(1993), 614-619.
  • [19] P. Praveen, and P.K.D.V. Yarlagadda, Journal of Materials Processing Technology, 164-165 (2005) 1106-1112.
  • [20] P. Praveen, P.K.D.V. Yarlagadda and M.J. Kang, Journal of Materials Processing Technology, 164-165 (2005) 1113-1119.
  • [21] T.P. Quinn, R.B. Madigan, and T.A. Siewert, Welding Journal, 73(1994), 241-s – 248-s.
  • [22] A.A. Smith, Characterisation of the Short Circuting CO2 Sheided Arc, Proc. Int. Symp. on Physics of the Welding Arc, The Welding Institute, London, U.K., 75-91, 1962.
  • [23] A.A. Smith, CO2 Welding, The Welding Institute, London, U.K, 1970.
  • [24] G.K. So, and F.G. De Boer, Australasian Welding Journal, 46(2001) 33-39.
  • [25] S. Subramaniam, D.R. White, J.E. Jones, and D.W. Lyons, Welding Research Supplement, May (1999) 166-172.
  • [26] M. Ushio, and W. Mao, Journal of Japan Welding Society, 14(1996), 99-107.
  • [27] M. Yan, and S.W. Simpson, Australasian Welding Journal, 46(2001),40-47.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-c86ca902-755d-47cc-bb7a-61196a03514d
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