重ねすみ肉アーク溶接におけるガスシールド性に関する実験的検討

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Published in溶接学会論文集 Vol. 39; no. 1; pp. 51 - 63
Main Authors 山田, 哲生, 茂田, 正哉, 田中, 学, 古免, 久弥, 斉藤, 直子, 深堀, 貢
Format Journal Article
LanguageJapanese
Published 一般社団法人 溶接学会 2021
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ISSN0288-4771
2434-8252
DOI10.2207/qjjws.39.51

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Author 深堀, 貢
田中, 学
古免, 久弥
山田, 哲生
茂田, 正哉
斉藤, 直子
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  organization: 大阪大学接合科学研究所
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  organization: 熊本大学先進マグネシウム国際研究センター
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  fullname: 斉藤, 直子
  organization: マツダ株式会社
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  fullname: 深堀, 貢
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References 21) M. Shigeta, T. Sato and H. Nishiyama: Numerical simulation of a potassium-seeded turbulent RF inductively coupled plasma with particles, Thin Solid Films, 435 (2003), 5-12.
18) M. Tanaka, H. Terasaki, M. Ushio and J. J. Lowke: Numerical study of a free-burning argon arc with anode melting, Plasma Chemistry and Plasma Processing, 23-3 (2003), 585-606.
25) M. Shigeta: Turbulence modelling of thermal plasma flows, Journal of Physics D: Applied Physics, 49-49 (2016), 493001-(18 pages).
5) R. Yamasaki, K. Ikai and Y. Yokota: Low-Slag Welding Process for Automotive Steel Sheets, Research and development, Kobe Steel engineering reports, 69-1 (2019), 98-104. (in Japanese
2) I. Masumoto: On the Chemical Reactions in Molten Steel with CO2-O2 Arc Welding (Report 2) -Oxidizing Reactions of Carbon, Silicon and Manganese-, Journal of the Japan Welding Society, 29-6 (1960), 464-473. (in Japanese
10) N. Mukai, S. Tashiro, A. B. Murphy, Y. Inoue, T. Suga and M. Tanaka: Study of Shieldability of the Low Hydrogen Welding Process by Numerical Simulation, Journal of Smart Processing, 9-4 (2020), 199-207. (in Japanese
9) N. Mukai, T. Maruyama and R. Suzuki: Research and Development on the Welding Process for Reducing Diffusible Hydrogen, Quarterly Journal of the Japan Welding Society, 36-1 (2018), 86-93. (in Japanese
17) National Institute of Standards and Technology, the U. S. Department of Commerce: NIST Atomic Spectra Database (https://www.nist.gov/pml/atomic-spectra-database).
4) M. Tanaka, M. Fukahori, T. Ogawa, M. Miyata and R. Suzuki: Basic examination aimed to develop low slag welding process for galvanized steel sheet -2nd Report: Study on influence that gas shield nozzle gives to atmosphere involution-, Preprints of the National Meeting of JWS, 97 (2015), 444-445. (in Japanese
8) 流れの可視化学会編:新版流れの可視化ハンドブック, 朝倉書店, (1986).
3) 溶接学会・日本溶接協会編:溶接・接合技術総論, 産報出版, (2016).
15) M. Kabasawa: Welding of High Strength Steel Sheets for Automobiles, Journal of the Japan Welding Society, 60-6 (1991), 495-498. (in Japanese
13) M. Schnick, M. Dreher, J. Zschetzsche, U. Füssel and A. Spille-Kohoff: Visualization and optimization of shielding gas flows in arc welding, Welding in the World, 56-1-2 (2012), 54-61.
20) M. Shigeta, M. Tanaka and E. Ghedini: Numerical analysis of correlation between arc plasma fluctuation and nanoparticle growth-transport under atmospheric pressure, Nanomaterials, 9-12 (2019), 1736-(13 pages).
22) V. Colombo, E. Ghedini, M. Gherardi, P. Sanibondi and M. Shigeta: A two-dimensional nodal model with turbulent effects for the synthesis of Si nano-particles by inductively coupled thermal plasmas, Plasma Sources Science and Technology, 21-2 (2012), 025001-(12 pages).
16) M. S. Weglowski: Investigation on the electric arc light emission in TIG welding, International Journal of Computational Materials Science and Surface Engineering, 1-6 (2007), 734-749.
12) R. J. Adrian: Twenty years of particle image velocimetry, Experiments in fluids, 39-2 (2005), 159-169.
26) M. Shigeta: Numerical Study of Axial Magnetic Effects on a Turbulent Thermal Plasma Jet for Nanopowder Production Using 3D Time-Dependent Simulation, Journal of Flow Control, Measurement & Visualization, 6 (2018), 107-123.
29) 溶接アーク物理研究委員会編:溶接プロセスの物理, 社団法人溶接学会, (1996).
7) R. Suzuki, S. Sasakura, Y. Yokota, T. Sato, Y. Shigemori, A. Uenaka, H. Nishimura and H. Kiso: Study of wind-toughness in consideration of multi-pass weld metal quality about Gas Metal Arc Welding, Quarterly Journal of the Japan Welding Society, 32-4 (2014), 242-250. (in Japanese
19) M. Tanaka: Physics of Welding Arcs, Journal of the Japan Welding Society, 87-8 (2018), 555-574. (in Japanese
27) M. Shigeta: Modeling and Simulation of a Turbulent-like Thermal Plasma Jet for Nanopowder Production, IEEJ Transactions on Electrical and Electronic Engineering, 14 (2019), 16-28.
1) K. Ikai, R. Yamasaki, Y. Yokota, M. Tanaka, N. Saito and M. Fukahori: Welding Consumables and Processes to Improve Rust Prevention Performance, Journal of the Japan Welding Society, 89-6 (2020), 409-415. (in Japanese
6) S. Miki, K. Konishi, M. Shigeta, M. Tanaka, A. Murata and T. Murata: Experimental Measurements of Gas Shielding Characteristics in TIG Welding with a Constricted Nozzle, Quarterly Journal of the Japan Welding Society, 36-1 (2018), 21-25. (in Japanese
28) M. Shigeta: Simulating Turbulent Thermal Plasma Flows for Nanopowder Fabrication, Plasma Chemistry and Plasma Processing, 40-3 (2020), 775-794.
24) M. Shigeta: Three-dimensional flow dynamics of an argon RF plasma with dc jet assistance: a numerical study, Journal of Physics D: Applied Physics, 46-1 (2013), 015401-(12 pages).
14) E. Siewert, G. Wilhelm, M. Hässler, J. Schein, T. Hanson, M. Schnick and U. Füssel: Visualization of gas flows in welding arcs by the Schlieren measuring technique, Welding Journal, 93-1 (2014), 1S-5S.
30) S. Tashiro, M. Tanaka, M. Nakatani, M. Furubayashi and Y. Yamazaki: Properties of Mass and Heat Transfer for Tube Cathode Arcs, Quarterly Journal of the Japan Welding Society, 25-1 (2007), 3-9. (in Japanese
11) M. Mizutani: Old and New Visualization Technique of Airflow -Shadowgraph Using Diverging Light-, Journal of the Japan Welding Society, 86-8 (2017), 579-583. (in Japanese
23) M. Shigeta: Time-Dependent 3-D Simulation of an Argon RF Inductively Coupled Thermal Plasma, Plasma Sources Science and Technology, 21-5 (2012), 055029-(14 pages).
References_xml – reference: 23) M. Shigeta: Time-Dependent 3-D Simulation of an Argon RF Inductively Coupled Thermal Plasma, Plasma Sources Science and Technology, 21-5 (2012), 055029-(14 pages).
– reference: 25) M. Shigeta: Turbulence modelling of thermal plasma flows, Journal of Physics D: Applied Physics, 49-49 (2016), 493001-(18 pages).
– reference: 24) M. Shigeta: Three-dimensional flow dynamics of an argon RF plasma with dc jet assistance: a numerical study, Journal of Physics D: Applied Physics, 46-1 (2013), 015401-(12 pages).
– reference: 2) I. Masumoto: On the Chemical Reactions in Molten Steel with CO2-O2 Arc Welding (Report 2) -Oxidizing Reactions of Carbon, Silicon and Manganese-, Journal of the Japan Welding Society, 29-6 (1960), 464-473. (in Japanese)
– reference: 4) M. Tanaka, M. Fukahori, T. Ogawa, M. Miyata and R. Suzuki: Basic examination aimed to develop low slag welding process for galvanized steel sheet -2nd Report: Study on influence that gas shield nozzle gives to atmosphere involution-, Preprints of the National Meeting of JWS, 97 (2015), 444-445. (in Japanese)
– reference: 5) R. Yamasaki, K. Ikai and Y. Yokota: Low-Slag Welding Process for Automotive Steel Sheets, Research and development, Kobe Steel engineering reports, 69-1 (2019), 98-104. (in Japanese)
– reference: 29) 溶接アーク物理研究委員会編:溶接プロセスの物理, 社団法人溶接学会, (1996).
– reference: 8) 流れの可視化学会編:新版流れの可視化ハンドブック, 朝倉書店, (1986).
– reference: 22) V. Colombo, E. Ghedini, M. Gherardi, P. Sanibondi and M. Shigeta: A two-dimensional nodal model with turbulent effects for the synthesis of Si nano-particles by inductively coupled thermal plasmas, Plasma Sources Science and Technology, 21-2 (2012), 025001-(12 pages).
– reference: 20) M. Shigeta, M. Tanaka and E. Ghedini: Numerical analysis of correlation between arc plasma fluctuation and nanoparticle growth-transport under atmospheric pressure, Nanomaterials, 9-12 (2019), 1736-(13 pages).
– reference: 9) N. Mukai, T. Maruyama and R. Suzuki: Research and Development on the Welding Process for Reducing Diffusible Hydrogen, Quarterly Journal of the Japan Welding Society, 36-1 (2018), 86-93. (in Japanese)
– reference: 14) E. Siewert, G. Wilhelm, M. Hässler, J. Schein, T. Hanson, M. Schnick and U. Füssel: Visualization of gas flows in welding arcs by the Schlieren measuring technique, Welding Journal, 93-1 (2014), 1S-5S.
– reference: 27) M. Shigeta: Modeling and Simulation of a Turbulent-like Thermal Plasma Jet for Nanopowder Production, IEEJ Transactions on Electrical and Electronic Engineering, 14 (2019), 16-28.
– reference: 19) M. Tanaka: Physics of Welding Arcs, Journal of the Japan Welding Society, 87-8 (2018), 555-574. (in Japanese)
– reference: 13) M. Schnick, M. Dreher, J. Zschetzsche, U. Füssel and A. Spille-Kohoff: Visualization and optimization of shielding gas flows in arc welding, Welding in the World, 56-1-2 (2012), 54-61.
– reference: 7) R. Suzuki, S. Sasakura, Y. Yokota, T. Sato, Y. Shigemori, A. Uenaka, H. Nishimura and H. Kiso: Study of wind-toughness in consideration of multi-pass weld metal quality about Gas Metal Arc Welding, Quarterly Journal of the Japan Welding Society, 32-4 (2014), 242-250. (in Japanese)
– reference: 18) M. Tanaka, H. Terasaki, M. Ushio and J. J. Lowke: Numerical study of a free-burning argon arc with anode melting, Plasma Chemistry and Plasma Processing, 23-3 (2003), 585-606.
– reference: 26) M. Shigeta: Numerical Study of Axial Magnetic Effects on a Turbulent Thermal Plasma Jet for Nanopowder Production Using 3D Time-Dependent Simulation, Journal of Flow Control, Measurement & Visualization, 6 (2018), 107-123.
– reference: 28) M. Shigeta: Simulating Turbulent Thermal Plasma Flows for Nanopowder Fabrication, Plasma Chemistry and Plasma Processing, 40-3 (2020), 775-794.
– reference: 15) M. Kabasawa: Welding of High Strength Steel Sheets for Automobiles, Journal of the Japan Welding Society, 60-6 (1991), 495-498. (in Japanese)
– reference: 30) S. Tashiro, M. Tanaka, M. Nakatani, M. Furubayashi and Y. Yamazaki: Properties of Mass and Heat Transfer for Tube Cathode Arcs, Quarterly Journal of the Japan Welding Society, 25-1 (2007), 3-9. (in Japanese)
– reference: 17) National Institute of Standards and Technology, the U. S. Department of Commerce: NIST Atomic Spectra Database (https://www.nist.gov/pml/atomic-spectra-database).
– reference: 11) M. Mizutani: Old and New Visualization Technique of Airflow -Shadowgraph Using Diverging Light-, Journal of the Japan Welding Society, 86-8 (2017), 579-583. (in Japanese)
– reference: 16) M. S. Weglowski: Investigation on the electric arc light emission in TIG welding, International Journal of Computational Materials Science and Surface Engineering, 1-6 (2007), 734-749.
– reference: 1) K. Ikai, R. Yamasaki, Y. Yokota, M. Tanaka, N. Saito and M. Fukahori: Welding Consumables and Processes to Improve Rust Prevention Performance, Journal of the Japan Welding Society, 89-6 (2020), 409-415. (in Japanese)
– reference: 12) R. J. Adrian: Twenty years of particle image velocimetry, Experiments in fluids, 39-2 (2005), 159-169.
– reference: 6) S. Miki, K. Konishi, M. Shigeta, M. Tanaka, A. Murata and T. Murata: Experimental Measurements of Gas Shielding Characteristics in TIG Welding with a Constricted Nozzle, Quarterly Journal of the Japan Welding Society, 36-1 (2018), 21-25. (in Japanese)
– reference: 10) N. Mukai, S. Tashiro, A. B. Murphy, Y. Inoue, T. Suga and M. Tanaka: Study of Shieldability of the Low Hydrogen Welding Process by Numerical Simulation, Journal of Smart Processing, 9-4 (2020), 199-207. (in Japanese)
– reference: 21) M. Shigeta, T. Sato and H. Nishiyama: Numerical simulation of a potassium-seeded turbulent RF inductively coupled plasma with particles, Thin Solid Films, 435 (2003), 5-12.
– reference: 3) 溶接学会・日本溶接協会編:溶接・接合技術総論, 産報出版, (2016).
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Title 重ねすみ肉アーク溶接におけるガスシールド性に関する実験的検討
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