Local Approach to Brittle Fracture Strength Evaluation of Large Component with Shallow V-Notch

Minami Fumiyoshi, Ohata Mitsuru, Nagao Ryou

doi:10.2534/jjasnaoe1968.1999.186_465

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Other Title

浅いV切欠きをもつ大型構造要素の脆性破壊強度評価へのローカルアプローチの適用
アサイ V キリカキオモツオオガタコウゾウヨウソノゼイセイハカイキョウドヒョウカエノローカルアプローチノテキヨウハカイセイギョセッケイエノローカルアプローチノテンカイダイ5ホウ
浅いV切欠きをもつ大型構造要素の脆性破壊強度評価へのローカルアプローチの適用 : 破壊制御設計へのローカルアプローチの展開(第5報)
Application of the Local Approach to Fracture Control Design (Part 5)
破壊制御設計へのローカルアプローチの展開 (第5報)

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This paper employs the Local Approach for the evaluation of the fracture performance of a large structural component. The material used is a high strength steel of 490MPa class for steel-framed structures. Hollow-section beam specimens are constructed, where shallow V-notches are introduced at the edge of the flange. Conventional fracture mechanics procedures can not be directly applied to the notched component, because they have a basis on a crack or a crack-like defect. Three-dimensional FE-analysis demonstrates that the shallow V-notched component holds a considerably relaxed stress field compared to the fracture toughness specimen with a deep crack. This is due to a large difference in the near crack/notch tip constraint between the component and toughness specimen. This study insists that the Weibull stress, an integrated stress over the fracture process zone, is a measure of the fracture driving force of both notched and cracked specimens. The fracture load and fracture strain for the hollow-section beam with shallow V-notches can be predicted from the fracture toughness test results based on the Weibull stress criterion ; the critical Weibull stress at brittle fracture initiation is a material property regardless of the type of a notch/crack.

Journal

Journal of the Society of Naval Architects of Japan

Journal of the Society of Naval Architects of Japan 1999 (186), 465-473, 1999

The Japan Society of Naval Architects and Ocean Engineers

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