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Welding International Volume 32, 2018 - Issue 7
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Articles

Suggestion of welding procedure for compressive residual stress induction by using low transformation temperature welding materials

Junji YamamotoHitachi Construction Machinery Co. Ltd.Correspondence[email protected]
,
Kazuo HiraokaJoining and Welding Research Institute, Osaka University
&
Masahito MochizukiGraduate School of Engineering, Osaka University
Pages 497-504 | Published online: 18 Oct 2018

References

  • Ohta A, Watanabe O, Matsuoka K, et al. Fatigue strength improvement by using newly developed low transformation temperature welding material. Weld World. 1999;43(6):38–42.
  • Ohta A, Watanabe O, Matsuoka K, et al. Fatigue strength improvement of box welds by low transformation temperature welding wire and PWHT. Weld World. 2000;44(3):19–23.
  • Ohta A, Watanabe O, Matsuoka K, et al. Fatigue strength improvement of box welded joints by using low transformation temperature welding material. Q J Jpn Weld Soc. 2000;18(1):141–145. (in Japanese).
  • Ohta A, Watanabe O, Matsuoka K, et al. Fatigue strength improvement of box welds by using low transformation temperature welding material tripled fatigue strength by postweld heat. Q J Jpn Weld Soc. 2001;19(2):373–376. (in Japanese).
  • Ohta A, Maeda Y, Suzuki N. Doubled fatigue strength of box welded by low transformation temperature welding wire. J Constr Steel(JSSC). 1999. 11;7:173–180. (in Japanese).
  • Yamamoto J, Hiraoka K, Mochizuki M. Analysis of martensite behavior in welded joint using low transformation temperature welding wire. Sci Technol Weld Joi. 2010;15(2):104–110.
  • Ohta A, Watanabe O, Matsuoka K, et al. Study on residual stress reduction by using phase transformation phenomena in welding material. Q J Jpn Weld Soc. 2005;23(1):112–121. (in Japanese).
  • Mochizuki M, Matsushima S, Morikage Y, et al. Study on residual stress reduction by using phase transformation phenomena in welding material -studies on numerical simulation of temperature microstructure, and thermal stress histories during welding process and their application to welded structures(report2)-. Q J Jpn Weld Soc. 2005;23(1):112–121. (in Japanese).
  • Shiga C, Hiraoka K, Murakawa E, et al. Development elongated bead weld method for fatigue improvement in boxing fillet welded joints of high strength steels. Weld Tech. 2016;1:66–72. (in Japanese).
  • 高強度鋼板の疲労強度向上研究部会編: 溶接用鋼の疲労強度向上に関する基礎検討. 日本鉄鋼協会; 1995, 79–100.
  • Yamamoto J, Meguro S, Muramatsu Y, et al. Analysis of residual stress reduction by using low transformation-temperature materials. Q J Jpn Weld Soc. 2007;25(4):560–568. (in Japanese).
  • Hidekazu MURAKAWA. Simulation of welding residual stress and distortion. J JPN WELD SOC. 2017;86(8):559.

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