Elastoplastic Finite Element Analysis of Cracked Nuclear Pressure Vessel under Proof Loading
スポンサーリンク
概要
- 論文の詳細を見る
Three dimensional elastoplastic finite element analysis of a semi-elliptical surface crack in the axial direction at the inner surface of a nuclear pressure vessel is made to clarify the fundamental aspects of its elastoplastic behavior under proof loading. This analysis is originally concerned with SR cracking at the overlay part of the inner surface of a nuclear pressure vessel. By extending this investigation, it is hoped that the re-examination of the ASME Boiler and Pressure Vessel Code is possible.
- 大阪大学の論文
著者
-
FUKUDA Shuichi
Osaka University
-
MIYAMOTO Hiroshi
University of Tokyo
-
Shindo Takenori
Babcock Hitachi Kk.
-
KASHIMA Koichi
Central Research Institute of Electric Power Industry
-
SAKAGUCHI Yasuhide
Babcock Hitachi, KK.
-
KODAMA Yoshihisa
Babcock Hitachi, KK.
-
Kodama Yoshihisa
Babcock Hitachi Kk.
-
Sakaguchi Yasuhide
Babcock Hitachi Kk.
関連論文
- Prediction of Fatigue Crack Path by Finite Element Method
- Development of an Expert System for Welding Design Support : an Attempt(Welding Mechanics, Strength & Design)
- Elastoplastic Finite Element Analysis of Cracked Nuclear Pressure Vessel under Proof Loading
- New Finite Elements for Stress Analysis around Crack in Axi-symmetric Structure
- Development of an Expert System for the Support of Oil Storage Tank Design
- The Third International Conference on Nuclear Engineering (ICONE-3) April 23-27, 1995, Kyoto International Conference Hall, Kyoto, Japan
- Fatigue Crack Propagation in Steels under Random Loading
- Fatigue Crack Growth Rate in Welded Joints after Stress Relief Heat Treatment
- Construction of a Fault Tree Using Prolog(Welding Mechanics, Strength & Design)
- An Experimental Study of Effect of Welding Residual Stress upon Fatigue Crack Propagation Based on Observation of Crack Opening and Closure(Welding Mechanics, Strength & Design)
- Development of a Support System for the Selection of Welding Materials using Prolog(Welding Mechanics, Strength & Design)
- An Experimental Study of Redistribution of Welding Residual Stress with Fatigue Crack Extension
- Development of Maintenance Support System for Oil Storage Tanks using Prolog(Welding Mechanics, Strength & Design)
- First Order Approximation Approach toward Welding Design Optimization : Preliminary Study