Taira S. | Faculty of Engineering, Kyoto University
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概要
関連著者
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Taira Shuji
Faculty Of Engineering Kyoto University
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Taira S.
Faculty of Engineering, Kyoto University
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Honda Kazuo
Faculty Of Engineering Kyoto University
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Ohnami Masateru
School Of Science And Engineering Ritsumeikan University
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Honda Kazuo
Faculty of Education, Shimane University, Matsue 690-8504, Japan
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SHIRAISHI Tadashi
Faculty of Engineering., Tokai University
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Murakami Yasunori
Faculty Of Junior College Of Automobile Industry Osaka Sangyo University
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Honda Kazuo
Faculty Of Engineering Kyoto University.
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KYOGOKU Tetuo
Engineer, Sumitomo Steel Works Ltd
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MINATA Hideo
Faculty of Engineering, Hyoto University
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KOTERAZAWA Ryoichi
Faculty of Engineering, Kyoto University.
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Arima Jyunichi
Faculty Of Engineering Kyoto University
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Koterazawa Ryoichi
Faculty Of Engineering Kyoto University
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Koterazawa Ryoichi
Professor Faculty Of Engineering Kyoto University
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Minata Hideo
Faculty Of Engineering Hyoto University
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Shiraishi Tadashi
Faculty Of Engineering Hyoto University
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Yamaguchi Masaru
Kawasaki Iron And Steel Mfg. Co.
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SUZUKI Fusayuki
Faculty of Engineering, Kyoto University
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Kyogoku Tetuo
Engineer Sumitomo Steel Works Ltd
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Suzuki Fusayuki
Faculty Of Engineering Kyoto University
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SHIRAISHI Tadashi
Faculty of Engineering Department of Communications, Tokai University
著作論文
- Thermal Fatigue and Cyclic Mechanical Strain Fatigue at Elevated Temperature of 18-8 Cb Stainless Steel and 2.25 Cr-1 Mo Steel
- X-ray Investigation on the Fatigue Damage of Metals
- X-Ray Investigation on the Prediction of Fatigue Life : On the Changes in Half-Value Breadth of Carbon Steel under Varying Stress Amplitudes
- Thermal Fatigue under Pulsating Thermal Stress Cycling
- Residual Stresses Produced by Plastic Tension in Notched Plate Specimens and Fatigue Strength
- Dynamic Creep and Fatigue of 13 Chromium Steel at Elevated Temperature
- X-ray Investigation of Stress Measurement : On the Method of Measurement, the Effect of Radiation Area and Resolving Power
- Relaxation of 2^1/4 Cr-1 Mo Steel
- Investigation on Dynamic Creep and Rupture of a Low Carbon Steel