1. S. Kodama, Y. Ishida, S. Furusako, M. Saito, Y. Miyazakiand, and T. Nose, Arc Welding Technology for Automotive Steel Sheets, Nippon Steel Technical Report. (2013) 103 83–90.
2. Y. Mukai, A. Nishimura, A. Nakajima, and K. Oku, CO2 welding of galvanized steel,
Welding International. (1990) 4(2) 123–127.
[CROSSREF]
3. M. Uchihara, Joining technologies for automotive steel sheets,
Welding International. (2011) 25(04) 249–259.
[CROSSREF]
4. H. Matsui, H. Suzuki, and M. Yamada, Reduction of blowholes in high-speed arc welding of hot-dip galvanised steel sheets,
Welding International. (1998) 12(6) 432–439.
[CROSSREF]
5. H. Matsui and M. Yamada, Fundamental study of an arc welding procedure for hot-dip zinc-coated steel sheet,
Welding International. (1998) 12(7) 529–538.
[CROSSREF]
6. H. Matsui and S. Shionoya, Reduction of blowholes by vibration of the molten pool in arc welding of galvanised carbon steel sheet,
Welding International. (1998) 12(12) 959–965.
[CROSSREF]
7. S.-M. Cho, K.-J. Kim, and B.-W. Lee, The Waveform Control and Blowhole Generation in the Wave Pulse MIG Welding for Galvanized Steel Sheets, Journal of KWJS. (2005) 23(1) 69–76. (in Korean)
8. T. Era, T. Uezono, K. Kadota, S. Hata, and T. Ueyama, Leading Edge of Current Waveform Control Technologyon Digital Inverter Controlled Welding Power Source and Its Peripheral Equipment, IIW Doc. (2013) Doc. XII-2122-2113
9. M. R. Ahsan, Y. Kim, C. Kim, J. Kim, R. Ashiri, and Y. Park, Porosity formation mechanisms in cold metal transfer (CMT) gas metal arc welding (GMAW) of zinc coated steels,
Science and Technology of Welding and Joining. (2015) DOI: 10.1179/1362171815Y.0000000084
[CROSSREF]
10. S. Izutani, K. Yamazaki, R. Suzuki, Y. Ueda, K. Nakamuraand, and T. Uezono, Study on the Porosity Formation Phenomenon in Fillet Welding of Galvanized Steel Sheets and on Improvement of Weld Quality, IIW Doc. (2013) Doc. XII-2128-2113
11. C. Kim, W. Choi, J. Kim, and S. Rhee, Relationship between the weldability and the process parameters for laser-TIG hybrid welding of galvanized steel sheets,
Materials transactions. (2008) 49(1) 179–186.
[CROSSREF]
12. C. Kim, Y. Ahn, and J. Kim, CO2 laser-micro plasma arc hybrid welding for galvanized steel sheets, Transactions of Nonferrous, Metals Society of China. (2011) 21 s47–s53.
13. K. Michie, S. Blackman, and T. E. B. Ogunbiyi, Twin-wire GMAW, process characteristics and applications, Welding Journal. (1999) 78(5) 31–34.
14. T. Ueyama, T. Ohnawa, M. Tanaka, and K. Nakata, Effectsof torch configuration and welding current on weld bead formation in high speed tandem pulsed gas metal arc welding of steel sheets,
Science and Technology of Welding & Joining. (2005) 10(6) 750–759.
[CROSSREF]
15. D. Ye, X. Hua, J. Zhang, Y. Wu, Y. Bai, and Y. Lv, Analysisof arc interference and welding stability in twin wire GMA welding,
The International Journal of Advanced Manufacturing Technology. (2015) 1–7.
[CROSSREF] [PDF]
16. K.-B. Lee, C. Kim, and D.-S. Kim, High deposition rate pulse gas metal arc welding for Al 5083 thick plate, Proceedings of the Institution of Mechanical Engineers, Part B, Journal of Engineering Manufacture. (2013) 227(6) 848–854.
17. C. Kim, Y. Ahn, K.-B. Lee, and D. Kim, High-deposition-rate position welding of Al 5083 alloy for spherical-type liquefied natural gas tank, Proceedings of the Institution of Mechanical Engineers, Part B, Journal of Engineering Manufacture. (2015) doi: 10.1177/0954405414563553
18. Y. Lu, S. Chen, Y. Shi, X. Li, J. Chen, L. Kvidahl, and Y. M. Zhang, Double-electrode arc welding process, Principle, variants, control and developments,
Journal of Manufacturing Processes. (2014) 16(1) 93–108.
[CROSSREF]
19. Y. M. Zhang, M. Jiang, and W. Lu, Double electrodes improve GMAW heat input control, Welding Journal. (2004) 83(11) 39–41.
20. K. H. Li, J. S. Chen, and Y. M. Zhang, Double-electrode GMAW process and control, Welding Journal. (2007) 86(8) 231s–237s.
21. K. H. Li and Y. M. Zhang, Consumable double-electrode GMAW-part 1, the process, Welding Journal. (2008) 87(1) 11s–17s.
22. K. H. Li and Y. M. Zhang, Consumable double-electrode GMAW Part II, Monitoring, modeling, and control, Welding Journal. (2008) 87(2) 44s–50s.
23. Y. Shi, X. Liu, Y. Zhang, and M. Johnson, Analysis of metal transfer and correlated influences in dual-bypass GMAW of aluminum, Welding Journal. (2008) 87(9) 229s–236s.
24. Y. Shi, G. Zhang, Y. Huang, L. Lu, J. Huang, and Y. Shao, Pulsed Double Electrode GMAW Brazing for Joining of Aluminum to Steel, Welding Journal. (2014)
25. K. Li and C. Wu, Mechanism of metal transfer in DEGMAW, Journal of materials science & technology. (2009) 25(3) 415–418.
26. X. Meng, G. Qin, Y. Zhang, B. Fu, and Z. Zou, High speed TIG–MAG hybrid arc welding of mild steel plate,
Journal of Materials Processing Technology. (2014) 214(11) 2417–2424.
[CROSSREF]
27. S. Kanemaru, T. Sasaki, T. Sato, H. Mishima, S. Tashiro, and M. Tanaka, Study for TIG–MIG hybrid welding process,
Welding in the World. (2014) 58(1) 11–18.
[CROSSREF] [PDF]
28. S. Kanemaru, T. Sasaki, T. Sato, T. Era, and M. Tanaka, Study for the mechanism of TIG-MIG hybrid welding process,
Welding in the World. (2015) 59(2) 261–268.
[CROSSREF]
29. J. Chen, C. S. Wu, and M. A. Chen, Improvement of welding heat source models for TIG-MIG hybrid welding process,
Journal of Manufacturing Processes. (2014) 16(4) 485–493.
[CROSSREF]
30. M. Kang, Y.-N. Ahn, and C. Kim, Porosity Reduction during Gas Tungsten Arc-Gas Metal Arc Hybrid Welding of Zinc Coated Steel Sheets (I) - Effect of Preceding Gas Tungsten Arc,
J. of Welding and Joining. (2016) 34(4) 40–47. (in Korean)
[CROSSREF]
31. Welding and Joining Handbook. Korean Welding and Joining Society. (2008) 42 (in Korean)