FUKUDA Shuichi | Osaka University
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概要
関連著者
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FUKUDA Shuichi
Osaka University
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MIYAMOTO Hiroshi
University of Tokyo
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Shindo Takenori
Babcock Hitachi Kk.
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KASHIMA Koichi
Central Research Institute of Electric Power Industry
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KODAMA Yoshihisa
Babcock Hitachi, KK.
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Kodama Yoshihisa
Babcock Hitachi Kk.
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Sakaguchi Yasuhide
Babcock Hitachi Kk.
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Horikawa Kohsuke
Osaka Univ.
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Maeda Akihiko
Osaka University
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HORIKAWA Kohsuke
Osaka University
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Sumikawa Koji
University Of Tokyo
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KUJIRAI Yoichi
University of Tokyo
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Shindo Takenori
Kure Works, Babcock Hitachi K.K.
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Fukuda S
Tokyo Metropolitan Institute Of Technology
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Shindo Takenori
Kure Works Babcock Hitachi Ltd.
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Kitagawa Hideo
Institute Of Industrial Science University Of Tokyo
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SAKAGUCHI Yasuhide
Babcock Hitachi, KK.
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SAKAGUCHI Yasuhide
Kure Works, Babcock Hitachi, KK.
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KODAMA Yoshihisa
Kure Works, Babcock Hitachi, KK.
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KISHIMOTO Yasuki
Osaka University
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Kishimoto Yasuki
Osaka University:(present Office)mitsui Engineering And Shipuilding Co. Ltd
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Watari Shuji
Nippon Steel Corporation
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Tsuruta Yasuyuki
Yachiyo Engineering Co.
著作論文
- 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
- 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