![]() |
Porosity Reduction during Gas Tungsten Arc-Gas Metal Arc Hybrid Welding of Zinc Coated Steel Sheets (II) - Hybrid Welding Results
Young-Nam Ahn, Cheolhee Kim
J Weld Join. 2016;34(4):48-54. Published online 2016 Aug 23 DOI: https://doi.org/10.5781/JWJ.2016.34.4.48
|
Citations to this article as recorded by
GMA process development for pore-free zinc-coated steel sheet welding in automotive industry
Sang-Woo Han, Hansol Kim, Geonho Lee, Seungcheol Shin, Jongho Jeon, Sangjun Han, Gyuyeol Bae, Jungho Cho
The International Journal of Advanced Manufacturin.2023; 126(9-10): 3849. CrossRef Weld quality improvement and porosity reduction mechanism of zinc coated steel using tandem gas metal arc welding (GMAW)
Dong Hyuck Kam, Tae Hyun Lee, Dong Yoon Kim, Jedo Kim, Munjin Kang
Journal of Materials Processing Technology.2021; 294: 117127. CrossRef Porosity reduction through a Ti particle based gap-paste in arc welding of zinc coated steel
Dong-Hyuck Kam, Tae Hyun Lee, Jedo Kim
Journal of Materials Processing Technology.2018; 258: 211. CrossRef Porosity Reduction during Gas Tungsten Arc-Gas Metal Arc Hybrid Welding of Zinc Coated Steel Sheets (I) - Effect of Preceding Gas Tungsten Arc
Minjung Kang, Young-Nam Ahn, Cheolhee Kim
Journal of Welding and Joining.2016; 34(4): 40. CrossRef Applicability Study of 2-pass Laser Welding on Galvanized Steel Sheets
Young-Nam Ahn, Minjung Kang, Cheolhee Kim
Journal of Welding and Joining.2016; 34(4): 55. CrossRef
|