溶接時の柱状晶凝固形態簡易解析手法を用いた溶接凝固割れについての検討
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| Published in | 溶接学会論文集 Vol. 43; no. 2; pp. 222 - 230 |
|---|---|
| Main Authors | , , , , |
| Format | Journal Article |
| Language | Japanese |
| Published |
一般社団法人 溶接学会
2025
|
| Online Access | Get full text |
| ISSN | 0288-4771 2434-8252 |
| DOI | 10.2207/qjjws.43.222 |
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| Author | 幅田 真史 柴原 正和 前田 新太郎 王 聞達 生島 一樹 |
|---|---|
| Author_xml | – sequence: 1 fullname: 柴原 正和 organization: 大阪公立大学大学院 – sequence: 1 fullname: 王 聞達 organization: 大阪公立大学大学院 – sequence: 1 fullname: 前田 新太郎 organization: 大阪公立大学大学院 – sequence: 1 fullname: 幅田 真史 organization: 大阪公立大学大学院 – sequence: 1 fullname: 生島 一樹 organization: 大阪公立大学大学院 |
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| Copyright | 2025 社団法人 溶接学会 |
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| References | 18) H. Mizukami, S. Hiraki, M. Kawamoto and T. Watanabe: Tensile Strength of Carbon Steel during and after Solidification, Tetsu-to-Hagane, 84-11 (1998), 763-769. (in Japanese 6) T. Nagira, D. Yamashita, M. Kamai, H. Liu, Y. Aoki, K. Uesugi, A. Takeuchi and H. Fujii: In situ observation of solidification crack propagation for type 310S and 316L stainless steels during TIG welding using synchrotron X-ray imaging, Journal of Materials Science, vol.56, No.17 (2021), pp. 10653-10663. 12) K. Kadoi, D. Wang and K. Shinozaki: Solidification Cracking Susceptibility during Laser Welding and the High-accuracy Evaluation, Journal of the Japan Welding Society, 85-6 (2016), pp.569-574. (in Japanese 10) T. Zacharia: Dynamic Stresses in Weld Metal Hot Cracking.: Welding Journal, 73 (1994), 164-172. 4) K. Kadoi, A. Fujinaga, M. Yamamoto and K. Shinozaki: The effect of welding conditions on solidification cracking susceptibility of type 310S stainless steel during laser welding using an in-situ observation technique, Welding in the World, vol. 57 (2013), pp. 383-390. 7) T. Senda, F. Matsuda and G. Takano: Studies on Solidification Crack Susceptibility for Weld Metals with Trans-Varestraint Test (1): Investigation for Commercially Used Aluminum and Aluminum Alloys , Journal of the Japan Welding Society, 41-6 (1972), 709-723. (in Japanese 8) L. Aucott, D. Huang, H. B. Dong, S. W. Wen, J. A. Marsden, A. Rack and A. C. F. Cocks: Initiation and growth kinetics of solidification cracking during welding of steel, Scientific Reports, No. 7 (2017), No.40255. 16) M. Gaumann and W. Kurz: Why is it so difficult to produce an equiaxed microstructure during welding?, presented at the Mathematical Modelling of Weld Phenomena Conference, 4 (1997), 125-136. 14) K. Ikushima and M. Shibahara: Development of Analytical Method for Welding mechanics Using Idealized Explicit FEM, Transactions of JWRI, 39-2 (2010), 384-386. 3) S. Yamashita and K. Saida: Interpretation of evaluation indices based on solidification cracking behavior by in situ observation in Trans-Varestraint test, Welding in the World, vol. 66 (2022), pp. 341-349. 11) T. Koseki: Solidification and Solidification Structure Control of Weld Metals, Quarterly Journal of The Japan Welding Society, vol.70, No.5 (2001), pp. 579-595. (in Japanese 20) T. Fukui and K. Namba: Formation of feather structure in aluminum alloy welds and its effect on some properties: Basic studies on solidification of welds (5th report), Journal of Japan Institute of Light Metals, 22-11 (1972), 651-660. 9) D. J. Lahaie and M. Bouchard: Physical modeling of the deformation mechanisms of semisolid bodies and a mechanical criterion for hot tearing, Metallurgical and Materials Transactions B, 32 (2001), 697-705. 5) T. Nagira, D. Yamashita, M. Kamai, H. Liu, Y. Aoki, H. Fujii, K. Uesugi and A. Takeuchi: I Time-resolved X-ray imaging of solidification cracking for Al-Cu alloy at the weld crater, Materials Characterization, vol.167, (2020), 110469. 15) K. Ikushima, S. Ito and M. Shibahara: Development of Parallelized Idealized Explicit FEM Using GPU, Journal of the Japan Welding Society, 31-1 (2013), pp.23-32. (in Japanese 1) F. Matsuda, H. Nakagawa, S. Tomita: Investigation of weld solidification Cracking by MISO technique (Report 1), Quarterly Journal of The Japan Welding Society, Vol.6, No.3 (1988), pp. 394-400. (in Japanese). 17) F. Matsuda: Hot Cracking in Welded Joints of Steels, Sanyo Technical Report, 5-1 (1998), 8-19. (in Japanese 13) S. Maeda, K. Ikushima, M. Shibahara and N. Ma: Development of Analysis Method for Hot Cracking Considering Mechanical and Metallurgical Factors, Journal of the Japan Welding Society, 39-4 (2021), pp.386-395. (in Japanese 2) M. Shibahara, H. Serizawa and H. Murakawa: Development of Computational Method for Hot Cracking Using Temperature Dependent Interface Element and Application for Fish Bone Type Test, Quarterly Journal of The Japan Welding Society, Vol.19, No.2 (2001), pp. 365-372 (in Japanese). 19) F. Matsuda: Solidification and Crystal Growth in Weld Metal, Journal of the Japan Welding Society, 40-4 (1971), 276-296. (in Japanese |
| References_xml | – reference: 9) D. J. Lahaie and M. Bouchard: Physical modeling of the deformation mechanisms of semisolid bodies and a mechanical criterion for hot tearing, Metallurgical and Materials Transactions B, 32 (2001), 697-705. – reference: 3) S. Yamashita and K. Saida: Interpretation of evaluation indices based on solidification cracking behavior by in situ observation in Trans-Varestraint test, Welding in the World, vol. 66 (2022), pp. 341-349. – reference: 7) T. Senda, F. Matsuda and G. Takano: Studies on Solidification Crack Susceptibility for Weld Metals with Trans-Varestraint Test (1): Investigation for Commercially Used Aluminum and Aluminum Alloys , Journal of the Japan Welding Society, 41-6 (1972), 709-723. (in Japanese) – reference: 19) F. Matsuda: Solidification and Crystal Growth in Weld Metal, Journal of the Japan Welding Society, 40-4 (1971), 276-296. (in Japanese) – reference: 20) T. Fukui and K. Namba: Formation of feather structure in aluminum alloy welds and its effect on some properties: Basic studies on solidification of welds (5th report), Journal of Japan Institute of Light Metals, 22-11 (1972), 651-660. – reference: 15) K. Ikushima, S. Ito and M. Shibahara: Development of Parallelized Idealized Explicit FEM Using GPU, Journal of the Japan Welding Society, 31-1 (2013), pp.23-32. (in Japanese) – reference: 16) M. Gaumann and W. Kurz: Why is it so difficult to produce an equiaxed microstructure during welding?, presented at the Mathematical Modelling of Weld Phenomena Conference, 4 (1997), 125-136. – reference: 1) F. Matsuda, H. Nakagawa, S. Tomita: Investigation of weld solidification Cracking by MISO technique (Report 1), Quarterly Journal of The Japan Welding Society, Vol.6, No.3 (1988), pp. 394-400. (in Japanese). – reference: 5) T. Nagira, D. Yamashita, M. Kamai, H. Liu, Y. Aoki, H. Fujii, K. Uesugi and A. Takeuchi: I Time-resolved X-ray imaging of solidification cracking for Al-Cu alloy at the weld crater, Materials Characterization, vol.167, (2020), 110469. – reference: 4) K. Kadoi, A. Fujinaga, M. Yamamoto and K. Shinozaki: The effect of welding conditions on solidification cracking susceptibility of type 310S stainless steel during laser welding using an in-situ observation technique, Welding in the World, vol. 57 (2013), pp. 383-390. – reference: 6) T. Nagira, D. Yamashita, M. Kamai, H. Liu, Y. Aoki, K. Uesugi, A. Takeuchi and H. Fujii: In situ observation of solidification crack propagation for type 310S and 316L stainless steels during TIG welding using synchrotron X-ray imaging, Journal of Materials Science, vol.56, No.17 (2021), pp. 10653-10663. – reference: 8) L. Aucott, D. Huang, H. B. Dong, S. W. Wen, J. A. Marsden, A. Rack and A. C. F. Cocks: Initiation and growth kinetics of solidification cracking during welding of steel, Scientific Reports, No. 7 (2017), No.40255. – reference: 10) T. Zacharia: Dynamic Stresses in Weld Metal Hot Cracking.: Welding Journal, 73 (1994), 164-172. – reference: 14) K. Ikushima and M. Shibahara: Development of Analytical Method for Welding mechanics Using Idealized Explicit FEM, Transactions of JWRI, 39-2 (2010), 384-386. – reference: 11) T. Koseki: Solidification and Solidification Structure Control of Weld Metals, Quarterly Journal of The Japan Welding Society, vol.70, No.5 (2001), pp. 579-595. (in Japanese) – reference: 2) M. Shibahara, H. Serizawa and H. Murakawa: Development of Computational Method for Hot Cracking Using Temperature Dependent Interface Element and Application for Fish Bone Type Test, Quarterly Journal of The Japan Welding Society, Vol.19, No.2 (2001), pp. 365-372 (in Japanese). – reference: 12) K. Kadoi, D. Wang and K. Shinozaki: Solidification Cracking Susceptibility during Laser Welding and the High-accuracy Evaluation, Journal of the Japan Welding Society, 85-6 (2016), pp.569-574. (in Japanese) – reference: 13) S. Maeda, K. Ikushima, M. Shibahara and N. Ma: Development of Analysis Method for Hot Cracking Considering Mechanical and Metallurgical Factors, Journal of the Japan Welding Society, 39-4 (2021), pp.386-395. (in Japanese) – reference: 18) H. Mizukami, S. Hiraki, M. Kawamoto and T. Watanabe: Tensile Strength of Carbon Steel during and after Solidification, Tetsu-to-Hagane, 84-11 (1998), 763-769. (in Japanese) – reference: 17) F. Matsuda: Hot Cracking in Welded Joints of Steels, Sanyo Technical Report, 5-1 (1998), 8-19. (in Japanese) |
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| Title | 溶接時の柱状晶凝固形態簡易解析手法を用いた溶接凝固割れについての検討 |
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