FUTAKAWA Masatoshi | Japan Atomic Energy Agency
スポンサーリンク
概要
関連著者
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FUTAKAWA Masatoshi
Japan Atomic Energy Agency
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二川 正敏
日本原子力研究所
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二川 正敏
Japan Atomic Energy Agency
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KOGAWA Hiroyuki
Japan Atomic Energy Agency
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NAOE Takashi
Japan Atomic Energy Agency
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直江 崇
日本原子力研究開発機構
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WAKUI Takashi
Japan Atomic Energy Agency
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IKEDA Yujiro
Japan Atomic Energy Agency
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ISHIKURA Shuichi
Japan Atomic Energy Agency
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Ikeda Y
Japan Atomic Energy Agency
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粉川 博之
東北大学大学院
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HAGA Katsuhiro
Japan Atomic Energy Agency
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IDA Masato
Japan Atomic Energy Agency
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Kikuchi Kenji
Japan Atomic Research Institute
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粉川 博之
東北大学大学院工学研究科材料加工プロセス学専攻
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Ishikura Syuichi
Japan Atomic Energy Agency
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Kikuchi Kenji
Japan Atomic Energy Agency
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MAEKAWA Katsuhiro
Department of Mechanical Engineering, Ibaraki University
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Maekawa Katsuhiro
Department Of Mechanical Engineering Ibaraki University
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Kawai Masayoshi
Department Of Mechanical Engineering Ibaraki University
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KURATA Yuji
Japan Atomic Energy Agency
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BUCHEERI Ahmed
Graduate School of Ibaraki University
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NAOE Takashi
Ibaraki University
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Hino Ryutaro
Japan Atomic Energy Research Institute
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Hino Ryutaro
Japan Atomic Energy Agency
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Bucheeri Ahmed
Graduate School Of Science And Engineering Ibaraki University
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SASA Toshinobu
Japan Atomic Energy Agency
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OIGAWA Hiroyuki
Japan Atomic Energy Agency
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TAKANO Hideki
Japan Atomic Energy Research Institute
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HASEGAWA Shoichi
Japan Atomic Energy Agency
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ZHEREBTSOV Sergey
Satellite Venture Business Laboratory, Ibaraki University
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MAEKAWA Katsuhiro
The Research Center for Superplasticity, Faculty of Engineering, Ibaraki University
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DATE Hidefumi
Tohoku Gakuin University
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TSAI Chin
Oak Ridge National Laboratory
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HINO Ryutaro
Japan Atomic Research Institute
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Oigawa H
Japan Atomic Energy Agency
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KINOSHITA Hidetaka
Japan Atomic Energy Agency
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RIEMER Bernard
Oak Ridge National Laboratory
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WENDEL Mark
Oak Ridge National Laboratory
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FELDE David
Oak Ridge National Laboratory
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ABDOU Ashraf
Oak Ridge National Laboratory
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UMENO Makoto
Japan Atomic Energy Agency
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Kurata Y
Japan Atomic Energy Agency
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Maekawa Katsuhiro
The Research Center For Superplasticity College Of Engineering Ibaraki University
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Zherebtsov Sergey
Satellite Venture Business Laboratory Ibaraki University
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Futakawa Masatoshi
Tokai Research Establishment Japan Atomic Energy Research Institute
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Saito Shigeru
Japan Atomic Energy Agency
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SUZUKI Hiroshi
Japan Atomic Energy Agency
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SHOBU Takahisa
Japan Atomic Energy Agency
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SAITO Shigeru
Japan Aerospace Exploration Agency
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Nishihara Kenji
Japan Atomic Energy Agency
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Tsujimoto Kazufumi
Japan Atomic Energy Agency
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ARAI Yasuo
Japan Atomic Energy Agency
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KAWAI Masayoshi
High Energy Accelerator Research Organization
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TANAKA Nobuatsu
Ibaraki University
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MATSUMOTO Yoichiro
The University of Tokyo
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Shoubu Takahisa
Japan Atomic Energy Agency
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TAKEUCHI Hirotsugu
NDK Kakou-center Co., Ltd
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HAYASHI Terutake
The Research Center for Superplasticity, Faculty of Engineering, Ibaraki University
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NAOE Takashi
Graduated School of Ibaraki University
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NAITO Akira
Japan Atomic Energy Research Institute
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MOTOHASHI Yoshinobu
Ibaraki University
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NAOE Takashi
The Research Center for Superplasticity, Faculty of Engineering, Ibaraki University
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TSAI Chin-Chi
Oak Ridge National Laboratory
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WAKAI Eiichi
Japan Atomic Energy Research Institute
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Date Hidefumi
Department Of Mechanical Engineering Tohoku Gakuin University
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Nishihara K
Japan Atomic Energy Agency
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MUTO Yasushi
Japan Atomic Energy Research Institute
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OUCHI Nobuo
Japan Atomic Energy Agency
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Saito Sigeru
Japan Atomic Energy Research Institute
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Monato Kazuo
Japan Atomic Energy Research Institute
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Mori Keijiro
Japan Atomic Energy Research Institute
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NAKASHIMA Hiroshi
Japan Atomic Energy Research Institute
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Hayashi Terutake
The Research Center For Superplasticity Faculty Of Engineering Ibaraki University
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Ishikura Shuichi
Japan Atomic Energy Research Institute
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Futakawa Masatoshi
Japan Atomic Energy Research Institute
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Wakai Eiichi
Tokai Research Establishment Japan Atomic Energy Research Institute
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Kaminaga Masanori
Japan Atomic Energy Research Institute
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Wakui Takashi
Forschungszentrum Juelich GmbH
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UMEZAWA Kiyohiko
Research Laboratory of Precision Machinery & Electronics, T. I. T.
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Matsumoto Yoichiro
The Univ. Of Tokyo
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Kogawa Hiroyuki
Japan Atomic Energy Research Institute
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YOKOBORI Toshimitsu
Tohoku University
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Umezawa Kiyohiko
Research Laboratory Of Precision Machinery And Electronics Tokyo Institute Of Technology
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Arai Yasuo
Japan Atomic Energy Research Institute
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Kikuchi Kenji
Japan Atomic Energy Research Institute
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Wakai Eiichi
Japan Atomic Energy Agency Ibaraki Jpn
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H0UJOH Haruo
Res. Lab. of Prec. Machinery & Electronics, T.I.T.
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H0ujoh Haruo
Res. Lab. Of Prec. Machinery & Electronics T.i.t.
著作論文
- Pitting Damage and Residual Stress Induced by Cavitation Erosion on Mercury Target Vessel
- Mockup Experiments on Investigate the Leak Rate Correlation between Mercury and Helium for the Mercury Target System of J-PARC
- Lifetime Estimation of Microbubble in Mercury
- Mitigation Technologies for Damage Induced by Pressure Waves in High-Power Mercury Spallation Neutron Sources (II) : Bubbling Effect to Reduce Pressure Wave
- Microbubble Formation at a Nozzle in Liquid Mercury
- Mitigation Technologies for Damage Induced by Pressure Waves in High-Power Mercury Spallation Neutron Sources (I) —Material Surface Improvement—
- Wettability effect on bubble formation at orifice type nozzle (特集 流動の可視化)
- Failure Probability Estimation of Multi-walled Vessels for Mercury Target
- Laser Surface Alloying of SUS316 Stainless Steel with Al-Si : Effect of Substrate Temperature on Structure and Properties of Modified Layer(Recent Advances in Materials and Processing (I))
- Evaluation of Mechanical Properties and Microstructure in Ion-Irradiated Surface Layer(Recent Advances in Materials and Processing (I))
- Micro-Impact Damage Caused by Mercury Bubble Collapse(Recent Advances in Materials and Processing (I))
- 316 Erosion Damage of Laser Alloyed Stainless Steel in Mercury
- Damage Diagnostic of Localized Impact Erosion by Measuring Acoustic Vibration
- Pitting Damage Formation up to over 10 Million Cycles Off-line Test by MIMTM
- ICONE11-36175 Off-line tests on pitting damage in mercury target
- Distribution of Microbubble Sizes and Behavior of Large Bubbles in Mercury Flow in a Mockup Target Model of J-PARC
- ICONE11-36475 Research and Development on Accelerator-driven Transmutation System at JAERI
- ICONE11-36245 RECENT ACTIVITIES OF PB-BI TECHNOLOGY FOR ADS AT JAERI
- Stress Waves due to Deposited Heat in Mercury and Lead Spallation Targets
- 315 Mechanical Property Evaluation of Nanoscale Zone by Indentation Technique
- 106 Strain Rate Dependence on Electric Resistivity of Austenitic Stainless Steel
- Distribution of Microbubble Sizes and Behavior of Large Bubbles in Mercury Flow in a Mockup Target Model of J-PARC
- Dynamic Response of Mercury Subjected to Pressure Wave
- Mitigation Technologies for Damage Induced by Pressure Waves in High-Power Mercury Spallation Neutron Sources (III) — Consideration of the Effect of Microbubbles on Pressure Wave Propagation through a Water Test —
- Crack Initiation and Growth Behavior for High Temperature Creep Fatigue Interaction in a Notched Specimen of Ni-Based Alloy : Solid-Mechanics, Strength of Materials
- ICONE11-36094 STRUCTURAL INTEGRITY OF BEAM WINDOW OF MERCURY TARGET
- Mitigation Technologies for Damage Induced by Pressure Waves in High-Power Mercury Spallation Neutron Sources (III) : Consideration of the Effect of Microbubbles on Pressure Wave Propagation through a Water Test
- Corrosion of CrN-Coated Steels in Liquid Pb-Bi
- Sound Radiation from a Housing Containing a Vibration Source