Inelastic Analysis and Thermal Fatigue Life Prediction of a Perforated Cylinder Based on the Effective Stress Concept
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概要
- 論文の詳細を見る
In order to examine the applicability of the effective-stress-based analysis method of perforated plates that is proposed by the authors, inelastic behavior and creep-fatigue life of a perforated cylinder subjected to cyclic thermal stress were predicted. Firstly, basic creep behavior of a perforated cylinder under axial tension at uniform temperature was examined by means of three-dimensional FEM creep analysis, and the results showed that macroscopic and local creep behavior of a perforated cylinder is predictable using the proposed method on perforated plates. Secondly, thermal fatigue testing was carried out on a perforated cylinder, and the elastic-plastic-creep behavior of the cylinder was numerically analyzed by modeling the perforated cylinder to the equivalent solid cylinder based on the effective stress concept. Predicted local stress-strain behavior around circular holes was used for creep-fatigue life prediction based on the linear damage rule. Comparison of numerical results and experimentally observed damage clarified that the difference in damage mode at the inner and outer surfaces of a perforated cylinder could be successfully reproduced.
- 社団法人日本材料学会の論文
- 2003-03-15
著者
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IGARI Toshihide
Nagasaki Technical Institute, Mitsubishi Heavy Industries, Ltd.
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Mizokami Yorikata
Nagasaki Shipyard And Machinery Works Mitsubishi Heavy Industries. Ltd.
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TOKIYOSHI Takumi
Nagasaki Research and Development Center, Mitsubishi Heavy Industries, Ltd.
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Igari Toshihide
Nagasaki R&d Center Mitsubishi Heavy Industries Ltd.
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Igari Toshihide
Nagasaki Research And Development Center Mitsubishi Heavy Industries Ltd.
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Tokiyoshi Takumi
Nagasaki R&d Center Mitsubishi Heavy Industries Ltd.
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Tokiyoshi Takumi
Nagasaki Research And Development Center Mitsubishi Heavy Industries Ltd.
関連論文
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- OS12(3)-12(OS12W0391) Advanced Creep Damage Analysis of Low-Alloy Steel Welds Considering the Microscopic Damage Progress
- Inelastic Analysis and Thermal Fatigue Life Prediction of a Perforated Cylinder Based on the Effective Stress Concept
- Prediction of Macroscopic and Local Stress-Strain Behavior of Perforated Plates under Primary and Secondary Creep Conditions
- Creep Damage Simulation Test and Creep Life Assessment System for Elevated Temperature Plant Components