| アイテムタイプ |
学術雑誌論文 / Journal Article(1) |
| 公開日 |
2025-05-25 |
| タイトル |
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タイトル |
Effects of Longitudinal External Magnetic Field on Metal Transfer Behavior and Spatter Formation in CO2 Arc Welding |
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言語 |
en |
| 言語 |
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言語 |
eng |
| キーワード |
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|
言語 |
en |
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キーワード |
CO arc welding 2 |
| キーワード |
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言語 |
en |
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キーワード |
longitudinal magnetic field |
| キーワード |
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言語 |
en |
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キーワード |
repelled transfer |
| キーワード |
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言語 |
en |
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キーワード |
spatter formation |
| 資源タイプ |
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資源タイプ |
journal article |
| アクセス権 |
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アクセス権 |
open access |
| 著者 |
Le, Dang Khoi
Tashiro, Shinichi
Xu, Bin
Murphy, Anthony B.
| en |
Murphy, Anthony B.
Commonwealth Scientific and Industrial Research Organisation
|
Search repository
Trinh, Quang Ngoc
Bui, Van Hanh
湯地, 敏史
WEKO
24
e-Rad_Researcher
80418988
| ja |
湯地, 敏史
宮崎大学
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| ja-Kana |
ユジ, トシフミ
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| en |
Yuji, Toshifumi
University of Miyazaki
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Search repository
Mamat, Sarizam B.
Yamanaka, Kenta
| en |
Yamanaka, Kenta
Institute for Materials Research, Tohoku University
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Search repository
Tanaka, Manabu
Xiao, Lei
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| 抄録 |
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内容記述タイプ |
Abstract |
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内容記述 |
Excessive spatter formation in conventional CO2 arc welding significantly diminishes welding quality and efficiency, posing a critical challenge for industrial applications. To address this issue, this study investigated the mechanisms of metal transfer behavior and spatter formation under the influence of a longitudinal magnetic field (LMF) using a shadow-graph technique with high-speed imaging and back-laser illumination, also coupled with Computational Fluid Dynamics (CFD)-based arc-droplet numerical simulations. The results show that increasing the magnetic flux density (MFD) from 0 to 2 mT shifted the transfer mode from the repelled transfer to the globular transfer, while higher MFDs (3–4 mT) induced rotating repelled transfer. The globular transfer at 2 mT was considered to be primarily produced by the centrifugal effect due to the rotational motion of the molten metal inside the droplet, which was caused by the Lorentz force affected by LMF. The higher droplet temperature in this condition also contributed to forming this transfer mode, preventing the formation of repelled transfer through a decrease in the arc pressure. On the contrary, in the higher MFDs, the droplet temperature decreased to increase the arc pressure, lifting the droplet up. Furthermore, the very strong centrifugal effect rotated the molten metal column around the wire axis to induce the rotating repelled transfer. The spatter formation was found to occur with the two-stage motion of the curved long tail without LMF and at 4 mT, and also with the exploding molten metal column at 4 mT, due to an imbalance of the Lorentz force acting on the molten metal. On the other hand, the neck formation facilitated smooth droplet detachment without forming the curved long tail at 2 mT, reducing spatter significantly. These findings offer valuable insights for optimizing welding quality and efficiency by stabilizing globular transfer under an optimal LMF. |
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言語 |
en |
| bibliographic_information |
en : Materials
巻 18,
号 3,
p. 537,
発行日 2025-02-01
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| 出版者 |
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出版者 |
MDPI AG |
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言語 |
en |
| ISSN |
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収録物識別子タイプ |
EISSN |
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収録物識別子 |
19961944 |
| item_10001_relation_14 |
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関連タイプ |
isVersionOf |
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識別子タイプ |
DOI |
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関連識別子 |
https://doi.org/10.3390/ma18030537 |
| 権利 |
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権利情報 |
© 2025 by the authors. |
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言語 |
en |
| 出版タイプ |
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出版タイプ |
VoR |
fulltext (14 MB)
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