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Articles

Effect of toughness distribution in the thickness direction on long brittle crack propagation/arrest behaviour of heavy gauge shipbuilding steel

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References

  • S. Nagatsuka:超大型コンテナ船の今後の展望―コンテナ物流の変化とメガ·コンテナ船の推移―, KANRIN, 11 (2007), 14. (in Japanese)
  • 例えば, http://www.ship-technology.com/projects/triple-e-class/
  • S. Mori, S. Tanaka, Y. Tanaka and K. Hirota:鋼材の船舶への利用·使用実例, KANRIN, 24 (2009), 18. (in Japanese)
  • K. Nishimura, T. Handa and M. Hashimoto: Enhancement of Crack Arrestability of Steel Plates with Heavy Thickness by Advanced Controlled Rolling, JFE技報, 18 (2007), 18–22. (in Japanese)
  • K. Ichimiya, H. Sumi and T. Hirai: Steel Plates of 460 MPa Yield Strength Class with JFE EWEL® Technology for Large Heat Input Welding, JFE技報, 18 (2007), 13–17. (in Japanese)
  • The 193rd Research Committee (SR193 Committee). (1985): Application of 50kgf/mm2 class high strength steel plates made by new steel manufacturing process, Report No. 100, the Shipbuilding Research Association of Japan. (in Japanese)
  • S. Machida and M. Aoki: Some Basic Considerations on Crack Arresters for Welded Steel Structures (The 7th Report) with special reference to arrest of a extremely long crack and the design of crack arresters, Journal of the Society of Naval Architects of Japan, 131 (1972), 367–378. (in Japanese)
  • T. Kanazawa, S. Machida, H. Yajima and M. Aoki: Study on Brittle Crack Arrester, The Journal of the Society of Naval Architects of Japan, Selected Papers, 11 (1973), 135–147.
  • T. Kanazawa, S. Machida and T. Teramoto: Preliminary Approaches to Experimental and Numerical Study on Fast Crack Propagation and Crack Arrest, ASTM STP 627, (1977), 39–58.
  • T. Fukui, H. Kitada, M. Tada, K. Hirota and T. Ishikawa: Arrestability Requirement for Crack Arrester in Hull Structure, JHPI, 41–6 (2003), 303-314. (in Japanese)
  • The 147rd Research Committee (SR147 Committee). (1978): Evaluation of Brittle Fracture Toughness of Welded Joints of Ship under High Welding Heat Input, Report No. 87, the Shipbuilding Research Association of Japan. (in Japanese)
  • H. Shiomi:新しい造船用鋼材, KANRIN, 3 (2005), 10–15. (in Japanese)
  • K. Yamaguti, H. Kitada, H. Yajima, K. Hirota, H. Shirakihara:超大型コンテナ船の開発―新しい高強度極厚鋼板の実用―, KANRIN, 3 (2005), 70–76. (in Japanese)
  • T. Inoue, T. Ishikawa, S. Imai, T. Koseki, K. Hirota, M. Tada, H. Kitada, Y. Yamaguchi and H. Yajima: Long Crack Arrestability of Heavy-Thick Shipbuilding Steels, ISOPE-2006, 132–136.
  • Yamaguchi, Y, Yajima, H, Aihara, S, Yoshinari, H, Hirota, K, Toyoda, M, Kiyosue, Tanaka, S, Okabe, T, Kageyama, K, Funatsu, Y, Handa, T, Kawabata, Tand Tani, T: Development of Guidelines on Brittle Crack Arrest Design -Brittle crack arrest design for large container ships -1-, ISOPE-2010, 71–79.
  • Kawabata, T, Matsumoto, K, Ando, T, Yajima, H, Aihara, S, Yoshinari, H, Hirota, K, Toyoda, M, Kiyosue, T, Inoue, T, Handa, T and Tani, T: Development of brittle crack arrest toughness Kca test method -Brittle crack arrest design for large container ships -2-, ISOPE-2010, 80–87.
  • Handa, T, Matsumoto, T, Yajima, H, Aihara, S, Yoshinari, H, Hirota, K, Toyoda, M, Kiyosue, T, Inoue, T, Kawabata, T and Tani, T: Effect of Structural Discontinuities of Welded Joints on Brittle Crack Propagation Behavior -Brittle crack arrest design for large container ships -3-, ISOPE-2010, 88–94.
  • Inoue, T, Yamaguchi, Y, Yajima, H, Aihara, S, Yoshinari, H, Hirota, K, Toyoda, M, Kiyosue, T, Handa, T, Kawabata, T and Tani, T: Required Brittle Crack Arrest Toughness Kca Value with Actual-scale Model Tests -Brittle crack arrest design for large container ships -4-, ISOPE-2010, 95–101.
  • A.Kubo, H.Yajima, S.Aihara, H.Yoshinari, K.Hirota, M.Toyoda, T.Kiyosue, T.Inoue, T.Handa, T.Kawabata, T.Tani and Y.Yamaguchi: Experimental study on brittle crack propagation behavior with large scale structural component model tests -Brittle crack arrest design for large container ships -5-, ISOPE-2012, 36–43.
  • K.Sugimoto, H.Yajima, S.Aihara, H.Yoshinari, K.Hirota, M.Toyoda, T.Kiyosue, T.Inoue, T.Handa, T.Kawabata, T.Tani and A.Usami: Thickness effect on the brittle crack arrest toughness value (Kca) -Brittle crack arrest design for large container ships -6-, ISOPE-2012, 44–51.
  • Nippon Kaiji Kyokai: Guidelines on Brittle Crack Arrest Design, (2009).
  • IACS, UR S33: Requirements for Use of Extremely Thick Steel Plates, (2013).
  • S.Tsuyama, Y.Takeuchi, K.Nishimura and T.Handa : Brittle Crack Propagation/Arrest Behavior of Heavy Gauge Shipbuilding Steels Controlling the Texture Distribution in the Thickness Direction, Quarterly Journal of the Japan Welding Society, 30, 2 (2012), 188–195.
  • T.Handa, S.Igi, S.Endo, S.Tsuyama and H.Shiomi: Effect of Distance of Loading Points on Behavior of Long Brittle Crack Arrest, Proceeding of the National Symposium on Welding Mechanics & Design, (2011), 169–176. (in Japanese)
  • T.Ishikawa: Ultra-high Crack-arresting Steel Plate with Super-refined Grains in Surface Layers, JHPI, 38, 4 (2000), 234–242. (in Japanese)

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