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Materials and Manufacturing Processes Volume 31, 2016 - Issue 3
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Original Articles

A Novel Method of Triple-Wire Gas Indirect Arc Welding

Disheng FangKey Laboratory of Liaoning Advanced Welding and Joining Technology, School of Materials Science and Engineering, Dalian University of Technology, Dalian, China
,
Gang SongKey Laboratory of Liaoning Advanced Welding and Joining Technology, School of Materials Science and Engineering, Dalian University of Technology, Dalian, China
&
Liming LiuKey Laboratory of Liaoning Advanced Welding and Joining Technology, School of Materials Science and Engineering, Dalian University of Technology, Dalian, ChinaCorrespondence[email protected]
Pages 352-358 | Received 06 Feb 2015, Accepted 14 May 2015, Published online: 20 Oct 2015

REFERENCES

  • Kumar, R.; Bhattacharya, A. Mechanical and metallurgical studies in double shielded GMAW of dissimilar stainless steels (in press). Materials and Manufacturing Processes. doi:10.1080/10426914.2014.994760.
  • Devakumaran, K.; Ghosh, P.K. Thermal characteristics of weld and HAZ during pulse current gas metal arc weld bead deposition on HSLA steel plate. Materials and Manufacturing Processes 2010, 25, 616–630.
  • Zhang, M.; Yang, L.; Li, J. Submerged arc welding X100 pipeline steels. Materials and Manufacturing Processes 2014, 29, 64–68.
  • Wang, J. Arc behavior and characteristic of tungsten-consumable indirect arc welding. Ph.D. Thesis. Harbin Institute of Technology, Harbin, China, 2010; 10–40.
  • Li, K.; Zhang, Y. Metal transfer in double-electrode gas metal arc welding. Journal of Manufacturing Science and Engineering 2007, 129, 991–999.
  • Zhang, S.; Zou, Y. Effect of applied magnetic field on metal transfer of twin-wire indirect arc welding. Hanjie Xuebao 2011, 32 (6), 69–72.
  • Shi, C.; Zou, Y.; Zou, Z. Twin-wire indirect arc welding by modeling and experiment. Journal of Materials Processing Technology 2014, 214 (11), 2292–2299.
  • García, R.; López, V.H.; Bedolla, E. MIG welding process with indirect electric arc. Journal of Materials Science Letters 2002, 21, 1965–1967.
  • Ambriz, R.R.; Barrera, G.; García, R.; López, V.H. The microstructure and mechanical strength of Al-6061-T6 GMA welds obtained with the modified indirect electric arc joint. Materials and Design 2010, 31 (6), 2978–2986.
  • Wang, J.; Cao, J.; Feng, J. Microstructure and mechanical performance of depositing CuSi3 Cu Alloy onto 30CrMnSi steel plate by the novel consumable and non-consumable electrodes indirect arc welding. Materials and Design 2010, 31 (4), 2253–2258.
  • Cao, M.; Zou, Z. Electric arc shape of twin-wire indirect arc welding. Hanjie Xuebao 2006, 26 (12), 49–52.
  • Cao, M.; Zou, Z., et al. Metal transfer of twin-wire indirect arc argon welding. Hanjie Xuebao 2006, 27 (1), 45–48.
  • Cao, M. Study on twin-wire indirect arc gas shielded welding. Ph.D. Thesis. Shandong University, Jinan, Shandong province, China, 2006; 41–53.
  • Zhang, S. Study on arc characteristics and metal transfer of twin-wire indirect arc welding. Ph.D. Thesis. Shandong University, Jinan, Shandong province, China, 2010; 47–67.
  • Li, K.H.; Zhang, Y.M. Consumable double-electrode GMAW part II: Monitoring, modeling and control. Welding Journal 2008, 87, 44–50.
  • Zhang, S.; Wu, D. Effect of magnetic field on twin-wire indirect arc shape. Hanjie Xuebao 2010, 31 (7), 87–90.
  • Malinovska, E.; Pavelka, V. Characteristics of welded joints produced by two wire submerged arc welding. Welding International 1990, 4 (2), 157–163.
  • Kiran, D.V.; Cho, D.W.; Song, W.H.; Na, S.J. Arc behavior in two wire tandem submerged arc welding. Journal of Materials Processing Technology 2014, 214, 1546–1556.
  • Wang, J.; Feng, J. TIG-MIG indirect arc welding process. Hanjie Xuebao 2009, 2 (30), 145–148.
  • Tušek, J. Mathematical modeling of melting rate in arc welding with a triple-wire electrode. Journal of Materials Processing Technology 2004, 146, 415–423.
  • Parshin, S.G. Melting of welding wire with an activating coating in shielding gases. Welding International 2005, 19 (4), 305–308.
  • Zhu, Q.; Xue, J.; Yao, P., et al. Gaussian pulsed current waveform welding for aluminum alloys. Materials and Manufacturing Processes 2015, 0, 1–7. doi:10.1080/10426914.2014.973603.
  • Groetelaars, P.J.; de Morais, C.O.; Scotti, A. Influence of the arc length on metal transfer in the single potential double-wire MIG/MAG process. Welding International 2009, 23 (2), 112–119.
  • Mathivanan, A.; Devakumaran, K.; Senthil Kumar, A. Comparative study on mechanical and metallurgical properties of AA6061 aluminum alloy sheet weld by pulsed current and dual pulse gas metal arc welding processes. Materials and Manufacturing Processes 2014, 29, 941–947.
  • Defize, L.F.; Willingen, P.C.v.d. Droplet transfer during arc welding in various shielding gases. British Welding Journal 1960, 7, 297.
  • Zhang, Z.; Luo, Z.; Liu, L. Study on downhill welding mild steel using laser-MAG hybrid welding. Materials and Manufacturing Processes 2012, 27, 1178–1183.
  • Far, S.M. Influence of thermal simulated and real tandem submerged arc welding process on the microstructure and mechanical properties of the coarse-grained heat-affected zone. Materials and Manufacturing Processes 2011, 26, 1423–1429.
  • Tathgir, S.; Bhattacharya, A.; Bera, T.K. Influence of current and shielding gas in TiO2 flux activated TIG welding on different graded steels. Materials and Manufacturing Processes 2015, 0, 1–9. doi:10.1080/10426914.2014.973591.
  • Robert Jayachandran, J.A.; Murugan, N. Investigations on the influence of surfacing process parameters over bead properties during stainless steel cladding. Materials and Manufacturing Processes 2012, 27, 69–77.

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