圧縮量低減によるレールガス圧接法の施工プロセス簡略化に向けた検討

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Published in溶接学会論文集 Vol. 43; no. 2; pp. 131 - 141
Main Authors 寺下 善弘, 山本 隆一, 伊藤 太初, 小納谷 優希
Format Journal Article
LanguageJapanese
Published 一般社団法人 溶接学会 2025
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ISSN0288-4771
2434-8252
DOI10.2207/qjjws.43.131

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Author 寺下 善弘
小納谷 優希
山本 隆一
伊藤 太初
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  fullname: 伊藤 太初
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  fullname: 小納谷 優希
  organization: 鉄道総合技術研究所
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References 15) H. Itoh, R. Yamamoto and T. Sasaki: Heat deformation analysis using a finite element model on gas pressure welding for railway rail, Quarterly Journal of The Japan Welding Society, 40-1 (2022), 44-55. (in Japanese
16) T. Takimoto: Latest Welding Technology for Long Rail and Its Reliability, Tetsu-to-Hagané, 70-10(1984), 1348-1356. (in Japanese
1) R. Yamamoto: Welding Technology of Rails, Journal of the Japan Welding Society, 81-8 (2012), 641-649. (in Japanese
9) A. Hasui and S. Fukushima: 0.25%C炭素鋼の摩擦溶接条件についての2,3の実験的考察, Report of the National Research Institute for Metals, 7-5(1964), 420-431. (in Japanese
19) K. Ueyama: Rail Welding-The production methods of continuous welded rail-, Journal of the Japan Welding Society, 54-8 (1985), 467. (in Japanese
13) S. Aoyama, M. Kawashima, K. Komatsu, I. Ishiguro M. Hiruma and K. Hashimoto:新型レールのアセチレンガス圧接試験-50 N, 40 N, 50 Tレール-, J. Railway Engineering Research, 23-8(1966), 25. (in Japanese)
12) for example, JR EAST:レール溶接工事標準示方書,本設第728号,(2007),17.(in Japanese)
20) H. Itoh, R. Yamamoto and T. Sasaki: Heat deformation analysis using a finite element model on gas pressure welding for steel bar, Quarterly Journal of The Japan Welding Society, 38-4 (2020), 418-428. (in Japanese
22) Huges, J.E.: Some Oxidation Effects during the Pressure Welding of Steels, British Welding Journal, 33-4 (1954), 161-166.
23) K. Ando, S. Nakata, Y. Nishida: Dispersion Mechanism of Oxide Inclusions at the Interface of Specimens in Upset Butt Welding, Journal of the Japan Welding Society, 40-11 (1971), 1140-1148. (in Japanese
3) H. Oishibashi and K. Ueyama: Fundamental Examination for Quality Estimation of Gas Pressure Welds, Quarterly Journal of the Japan Welding Society, 14-2 (1996), 305-313. (in Japanese
10) S. Fujiyoshi and A. Kobayashi: Fundamental Researches On Friction Welding (1), Research reports of the Faculty of Science and Technology, Meijo University, Nagoya, Japan, 16(1976), 42-49. (in Japanese
17) 新版軌道材料編集委員会: 新版軌道材料, 鉄道現業社, 東京, (2011), p.118.
5) H. Ito, R. Yamamoto and T. Sasaki: Quantitative evaluation of deformation and weld strength for gas pressure welds, Preprints of the National Meeting of JWS, 109(2021), 168-169, https://doi.org/10.14920/jwstaikai.2021f.0_168. (in Japanese
18) C. Urashima and S. Nishida: Influence of Segregation on Fatigue Strength of Rails, Journal of the Society of Materials Science, 38-428 (1989), 533-538. (in Japanese
4) S. Takano, T. Yokokawa, M. Hanzawa and K. Iwase: Study on Joining of Reinforcing Steel Bars by Automatic Gas Pressure Welding, Proceedings of the Japan Society of Civil Engineers, 1980-299, 113-125. (in Japanese
7) I. Oi and S. Imai: Welding of Rails by Gas Pressure Method (Report 1), Journal of the Japan Welding Society, 24-8 (1955), 308-314. (in Japanese
24) R. Yamamoto, Y. Fukada, M. Tatsumi and Y, Komizo: Observation for Transition Behavior of the Oxide Inclusions on Gas Pressure Weld Interface, Quarterly Journal of The Japan Welding Society, 27-3 (2009), 222-229. (in Japanese
2) Japan Welding Society:溶接・接合便覧,Maruzen (1990), 496-497. (in Japanese
14) Y. Fukada, M. Tatsumi, R. Yamamoto and K. Ueyama: Improvement in Reliability of Gas Pressure Welds on Rails, Quarterly Journal of The Japan Welding Society, 21-1 (2003), 39-45. (in Japanese
6) Y. Yabe and Y. Kobayakawa: Performance of Gas Pressure Welded Joints of High-Strength Reinforcing Steel Bars (SD 50), Concrete Journal, 27-12(1989), 20-26. (in Japanese
21) A. B. Kinzel: Solid Phase Welding, Welding Journal, 23-12 (1944), 1124-1144.
26) W. Zhang, N. Bay: Cold Welding -Theoretical Modeling of the Weld Formation, Welding Journal, 76-10 (1997), 417s-420s.
8) A. Hasui and S. Fukushima: S45C炭素鋼の摩擦溶接について, Report of the National Research Institute for Metals, 7-3(1964), 194-207. (in Japanese
25) Y. Takahashi, S. Shibamoto, K. Inoue: Computer Simulation of the Deformation Process during Gas Pressure Welding, Welding in the World, 37-6 (1996), 293-300.
11) S. Fujiyoshi and A. Kobayashi: Fundamental Researches On Friction Welding (2), Research reports of the Faculty of Science and Technology, Meijo University, Nagoya, Japan, 19(1979), 122-128. (in Japanese
References_xml – reference: 20) H. Itoh, R. Yamamoto and T. Sasaki: Heat deformation analysis using a finite element model on gas pressure welding for steel bar, Quarterly Journal of The Japan Welding Society, 38-4 (2020), 418-428. (in Japanese)
– reference: 1) R. Yamamoto: Welding Technology of Rails, Journal of the Japan Welding Society, 81-8 (2012), 641-649. (in Japanese)
– reference: 17) 新版軌道材料編集委員会: 新版軌道材料, 鉄道現業社, 東京, (2011), p.118.
– reference: 6) Y. Yabe and Y. Kobayakawa: Performance of Gas Pressure Welded Joints of High-Strength Reinforcing Steel Bars (SD 50), Concrete Journal, 27-12(1989), 20-26. (in Japanese)
– reference: 2) Japan Welding Society:溶接・接合便覧,Maruzen (1990), 496-497. (in Japanese)
– reference: 16) T. Takimoto: Latest Welding Technology for Long Rail and Its Reliability, Tetsu-to-Hagané, 70-10(1984), 1348-1356. (in Japanese)
– reference: 10) S. Fujiyoshi and A. Kobayashi: Fundamental Researches On Friction Welding (1), Research reports of the Faculty of Science and Technology, Meijo University, Nagoya, Japan, 16(1976), 42-49. (in Japanese)
– reference: 13) S. Aoyama, M. Kawashima, K. Komatsu, I. Ishiguro M. Hiruma and K. Hashimoto:新型レールのアセチレンガス圧接試験-50 N, 40 N, 50 Tレール-, J. Railway Engineering Research, 23-8(1966), 25. (in Japanese)
– reference: 26) W. Zhang, N. Bay: Cold Welding -Theoretical Modeling of the Weld Formation, Welding Journal, 76-10 (1997), 417s-420s.
– reference: 3) H. Oishibashi and K. Ueyama: Fundamental Examination for Quality Estimation of Gas Pressure Welds, Quarterly Journal of the Japan Welding Society, 14-2 (1996), 305-313. (in Japanese)
– reference: 14) Y. Fukada, M. Tatsumi, R. Yamamoto and K. Ueyama: Improvement in Reliability of Gas Pressure Welds on Rails, Quarterly Journal of The Japan Welding Society, 21-1 (2003), 39-45. (in Japanese)
– reference: 5) H. Ito, R. Yamamoto and T. Sasaki: Quantitative evaluation of deformation and weld strength for gas pressure welds, Preprints of the National Meeting of JWS, 109(2021), 168-169, https://doi.org/10.14920/jwstaikai.2021f.0_168. (in Japanese)
– reference: 21) A. B. Kinzel: Solid Phase Welding, Welding Journal, 23-12 (1944), 1124-1144.
– reference: 23) K. Ando, S. Nakata, Y. Nishida: Dispersion Mechanism of Oxide Inclusions at the Interface of Specimens in Upset Butt Welding, Journal of the Japan Welding Society, 40-11 (1971), 1140-1148. (in Japanese)
– reference: 4) S. Takano, T. Yokokawa, M. Hanzawa and K. Iwase: Study on Joining of Reinforcing Steel Bars by Automatic Gas Pressure Welding, Proceedings of the Japan Society of Civil Engineers, 1980-299, 113-125. (in Japanese)
– reference: 12) for example, JR EAST:レール溶接工事標準示方書,本設第728号,(2007),17.(in Japanese)
– reference: 25) Y. Takahashi, S. Shibamoto, K. Inoue: Computer Simulation of the Deformation Process during Gas Pressure Welding, Welding in the World, 37-6 (1996), 293-300.
– reference: 7) I. Oi and S. Imai: Welding of Rails by Gas Pressure Method (Report 1), Journal of the Japan Welding Society, 24-8 (1955), 308-314. (in Japanese)
– reference: 11) S. Fujiyoshi and A. Kobayashi: Fundamental Researches On Friction Welding (2), Research reports of the Faculty of Science and Technology, Meijo University, Nagoya, Japan, 19(1979), 122-128. (in Japanese)
– reference: 9) A. Hasui and S. Fukushima: 0.25%C炭素鋼の摩擦溶接条件についての2,3の実験的考察, Report of the National Research Institute for Metals, 7-5(1964), 420-431. (in Japanese)
– reference: 19) K. Ueyama: Rail Welding-The production methods of continuous welded rail-, Journal of the Japan Welding Society, 54-8 (1985), 467. (in Japanese)
– reference: 15) H. Itoh, R. Yamamoto and T. Sasaki: Heat deformation analysis using a finite element model on gas pressure welding for railway rail, Quarterly Journal of The Japan Welding Society, 40-1 (2022), 44-55. (in Japanese)
– reference: 18) C. Urashima and S. Nishida: Influence of Segregation on Fatigue Strength of Rails, Journal of the Society of Materials Science, 38-428 (1989), 533-538. (in Japanese)
– reference: 8) A. Hasui and S. Fukushima: S45C炭素鋼の摩擦溶接について, Report of the National Research Institute for Metals, 7-3(1964), 194-207. (in Japanese)
– reference: 22) Huges, J.E.: Some Oxidation Effects during the Pressure Welding of Steels, British Welding Journal, 33-4 (1954), 161-166.
– reference: 24) R. Yamamoto, Y. Fukada, M. Tatsumi and Y, Komizo: Observation for Transition Behavior of the Oxide Inclusions on Gas Pressure Weld Interface, Quarterly Journal of The Japan Welding Society, 27-3 (2009), 222-229. (in Japanese)
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Title 圧縮量低減によるレールガス圧接法の施工プロセス簡略化に向けた検討
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