Development of Guidelines on Brittle Crack Arrest Design : Brittle Crack Arrest Design for Large Container Ships-1

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概要

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• Brittle fractures of the hull structure cause serious structural damage, with the potential for both fatalities and environmental damage, once they happen. In recognition of this, ships are designed and constructed so as to ensure that brittle crack initiation does not occur. Further, if by chance a brittle crack is initiated, it is essential that a back-up brittle crack arresting function has been included in the ship's construction in order to ensure structural reliability and hull integrity. However, recent studies and large-scale crack arrest test results have suggested that the present requirements for brittle crack arrest may not he effective for the extremely thick steel plates which have recently begun to be used in the construction of large container ships (Yamaguchi, et al., 2006). In order to address these concerns, comprehensive research has been carried out on brittle crack arrestability from a number of different perspectives, including the use of both numerous large-scale crack arrest tests and numerical calculations. The introduction of brittle crack arrest concept in addition to brittle crack initiation control makes it possible to achieve "double integrity" by preventing both brittle crack initiation and propagation. This research was conducted by the Brittle Crack Arrest Design Committee of the Nippon Kaiji Kyokai (ClassNK) and the results have been summarized and incorporated in the ClassNK "Guidelines on Brittle Crack Arrest Design" (Nippon Kaiji Kyokai, 2009).

著者

• Yajima Hiroshi

  Nagasaki Inst. Of Ap. Sc.

• YOSHINARI Hitoshi

  National Research Institute for Metals

• Yajima Hiroshi

  Nagasaki Institute Of Applied Science

• Aihara Shuji

  The University of Tokyo

• Hirota Kazuhiro

  Mitsubishi Heavy Industries, Ltd.

• Toyoda Masanobu

  IHI Marine United Inc.

• Kiyosue Takaaki

  Kawasaki Heavy Industries, Ltd.

• Handa Tsunehisa

  JFE Steel Corporation

• Kawabata Tomoya

  Sumitomo Metal Industries, Ltd.

• Tani Tokutaka

  Kobe Steel, Ltd.

• Tani Tokutaka

  Kobe Steel Ltd.

• Tanaka Shigeru

  Mitsui Engineering & Shipbuilding Co., Ltd.

• Okabe Taku

  Universal Shipbuilding Corporation

• Kageyama Ko

  Koyo Dockyard Co., Ltd.

• Funatsu Yuji

  Nippon Steel Corporation

• Hirota Kazuhiro

  Mitsubishi Heavy Industries Ltd.

• Kawabata Tomoya

  Sumitomo Metal Industries Ltd.

• Kiyosue Takaaki

  Kawasaki Heavy Industries Ltd.

• Kageyama Ko

  Koyo Dockyard Co. Ltd.

• Tanaka Shigeru

  Mitsui Engineering & Shipbuilding Co. Ltd.

• Yoshinari Hitoshi

  National Maritime Research Institute

関連論文

• Evaluation Method of the Brittle Fracture Strength in Structurally Stress-Concentrated Regions
• 11. Evaluation Method of the Brittle Fracture Strength in Structurally Stress Concentrated Regions
• Effect of Fabricating Process on Notch Toughness of Shipbuilding Steel Plates (Report II) : Superposition of Welding on Cold Work and Its Effect on Brittle Fracture Strength
• 7. Effect of Line-Heating on Notch Toughness of 50 kg/mm^2-Class High-Tensile Steel Plates
• Effect of Fabricating Process on Notch Toughness of Shipbuilding Steel Plates (Report I) : Effect of Line-Heating on Notch Toughness of 50 kg/mm^2-Class High-Tensile Steel Plates
• Effect of Structural Discontinuities of Welded Joints on Brittle Crack Propagation Behavior : Brittle Crack Arrest Design for Large Container Ships-3
• Near-Threshold Fatigue Crack Propagation in Welded Joints under Random Loadings
• Development of Brittle Crack Arrest Toughness K_ Test Method : Brittle Crack Arrest Design for Large Container Ships-2
• Required Brittle Crack Arrest Toughness K_ Value with Actual Scale Model Tests : Brittle Crack Arrest Design for Large Container Ships-4
• Development of Guidelines on Brittle Crack Arrest Design : Brittle Crack Arrest Design for Large Container Ships-1
• Thickness Effect on Brittle Fracture Toughness of Weld Metal of High Tensile Strength Steel
• 16. Study on Brittle Crack Propagation and Arrest Behavior in Plate and Beam Structures
• Improvement of fatigue properties by ultrafine grained microstructure in steel plate
• 13. Study on Brittle Crack Propagation and Arrest Behavior in Plate and Beam Structures (2nd Report) : Dynamic Fracture Toughness of Ship Hull Steels
• Experimental Study on Brittle Crack Propagation Behavior with Large Scale Structural Component Model Tests : Brittle Crack Arrest Design for Large Container Ships-5
• Thickness Effect on the Brittle Crack Arrest Toughness Value (K_) : Brittle Crack Arrest Design for Large Container Ships-6

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