Fuketa T | Japan Atomic Energy Agency
スポンサーリンク
概要
関連著者
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Fuketa T
Japan Atomic Energy Agency
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FUKETA Toyoshi
Japan Atomic Energy Agency
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NAGASE Fumihisa
Nuclear Safety Research Center, Japan Atomic Energy Agency
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Nagase Fumihisa
Nuclear Safety Research Center Japan Atomic Energy Agency
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NAGASE Fumihisa
Japan Atomic Energy Agency
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SUGIYAMA Tomoyuki
Japan Atomic Energy Agency
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Sugiyama T
Japan Atomic Energy Agency
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Nakamura T
Japan Atomic Energy Res. Inst. Ibaraki‐ken
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SASAJIMA Hideo
Japan Atomic Energy Agency
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NAKAMURA Takehiko
Japan Atomic Energy Agency
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Kudo Tamotsu
Japan Atomic Energy Agency
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Amaya M
Fuel Safety Research Group Nuclear Safety Research Center Japan Atomic Energy Agency
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CHUTO Toshinori
Japan Atomic Energy Agency
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NAKAMURA Jinichi
Fuel Safety Research Group, Nuclear Safety Research Center, Japan Atomic Energy Agency
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AMAYA Masaki
Fuel Safety Research Group, Nuclear Safety Research Center, Japan Atomic Energy Agency
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FUKETA Toyoshi
Fuel Safety Research Group, Nuclear Safety Research Center, Japan Atomic Energy Agency
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Hidaka A
Japan Atomic Energy Res. Inst. Ibaraki
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Hidaka Akihide
Department Of Reactor Safety Research Japan Atomic Energy Researth Institute
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Hidaka Akihide
Japan Atomic Energy Research Institute
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Ishikawa J
Department Of Bioactive Molecules National Institute Of Infectious Diseases
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Ishikawa Jun
大阪大学 医学系研究科心臓血管外科
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ISHIKAWA Jun
Japan Atomic Energy Research Institute
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Nakamura Jinichi
Department Of Reactor Safety Research Japan Atomic Energy Research Institute
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Nakamura Jinichi
Fuel Safety Research Group Nuclear Safety Research Center Japan Atomic Energy Agency
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Amaya Masaki
Fuel Safety Research Group Nuclear Safety Research Center Japan Atomic Energy Agency
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KIDA Mitsuko
Japan Atomic Energy Agency
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Hidaka Akihide
Japan Atomic Energy Agency
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FUKETA Toyoshi
Nuclear Safety Research Center, Japan Atomic Energy Agency
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NAKAMURA Jinichi
Japan Atomic Energy Research Institute
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NAGASE Fumihisa
Fuel Safety Research Group, Nuclear Safety Research Center, Japan Atomic Energy Agency
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SAWA Kazuhiro
Japan Atomic Energy Agency
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ISHIGAMI Tsutomu
Japan Atomic Energy Research Institute
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Uetsuka Hiroshi
Surface Chemistry Laboratory Kanagawa Academy Of Science And Technology Ksp East 404
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Uetsuka Hiroshi
Japan Atomic Energy Research Institute
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Uetsuka Hiroshi
Institute Of Materials Science University Of Tsukuba
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Uetsuka Hiroshi
Department Of Reactor Safety Research Japan Atomic Energy Research Institute
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Kikuchi Keiichi
Japan Nuclear Cycle Development Institute
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Amaya Masaki
Department Of Reactor Safety Research Japan Atomic Energy Research Institute
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Fuketa Toyoshi
Department Of Reactor Safety Research Japan Atomic Energy Research Institute
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UMEDA Miki
Japan Atomic Energy Agency
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UETA Shohei
Japan Atomic Energy Agency
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Uetsuka H
Department Of Reactor Safety Research Japan Atomic Energy Research Institute
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AMAYA Masaki
Nuclear Safety Research Center, Japan Atomic Energy Agency
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SUGIYAMA Tomoyuki
Nuclear Safety Research Center, Japan Atomic Energy Agency
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SUGIYAMA Tomoyuki
Department of Reactor Safety Research, Japan Atomic Energy Research Institute
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NAKAMURA Takehiko
Reactivity Accident Laboratory, Department of Reactor Safety Research, Japan Atomic Energy Research
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SASAJIMA Hideo
Reactivity Accident Laboratory, Department of Reactor Safety Research, Japan Atomic Energy Research
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FUKETA Toyoshi
Reactivity Accident Laboratory, Department of Reactor Safety Research, Japan Atomic Energy Research
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ISHIJIMA Kiyomi
Reactivity Accident Laboratory, Department of Reactor Safety Research, Japan Atomic Energy Research
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ISHIJIMA Kiyomi
Japan Atomic Energy Research Institute
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FUJISHIRO Toshio
Japan Atomic Energy Research Institute
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Sugiyama Tomoyuki
Department Of Reactor Safety Research Japan Atomic Energy Research Institute
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Ishijima Kiyomi
Reactivity Accident Laboratory Department Of Reactor Safety Research Japan Atomic Energy Research In
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Nakamura Takehiko
Reactivity Accident Laboratory Department Of Reactor Safety Research Japan Atomic Energy Research In
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Chuto Toshinori
Nuclear Safety Research Center Japan Atomic Energy Agency
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Nakamura Junichi
Japan Atomic Energy Research Institute
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Nakayama Jinichi
Fuel Safety Research Group, Nuclear Safety Research Center, Japan Atomic Energy Agency
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SUGIYAMA Tomoyuki
Department of Mechanical Engineering and Science, Tokyo Institute of Technology
著作論文
- Identification of Radial Position of Fission Gas Release in High-Burnup Fuel Pellets under RIA Conditions
- Optimized Ring Tensile Test Method and Hydrogen Effect on Mechanical Properties of Zircaloy Cladding in Hoop Direction
- Behavior of High Burn-up Fuel Cladding under LOCA Conditions
- Thermal Conductivity Change in High Burnup MOX Fuel Pellet
- Radionuclide Release from Mixed-Oxide Fuel under High Temperature at Elevated Pressure and Influence on Source Terms
- Proposal of Simplified Model of Radionuclide Release from Fuel under Severe Accident Conditions Considering Pressure Effect
- Effects of Fuel Oxidation and Dissolution on Volatile Fission Product Release under Severe Accident Conditions
- Releases of Cesium and Poorly Volatile Elements from UO_2 and MOX Fuels under Severe Accident Conditions
- Behavior of Coated Fuel Particle of High-Temperature Gas-Cooled Reactor under Reactivity-Initiated Accident Conditions
- Fission Gas Release in BWR Fuel with a Burnup of 56GWd/t during Simulated Reactivity Initiated Accident (RIA) Condition
- Measurements of Crystal Lattice Strain and Crystallite Size in Irradiated UO_2 Pellet by X-ray Diffractometry
- Behavior of 60 to 78MWd/kgU PWR Fuels under Reactivity-Initiated Accident Conditions
- Fission Gas Release in Irradiated UO_2 Fuel at Burnup of 45GWd/t during Simulated Reactivity Initiated Accident (RIA) Condition
- Failure Thresholds of High Burnup BWR Fuel Rods under RIA Conditions
- Behavior of Irradiated ATR/MOX Fuel under Reactivity Initiated Accident Conditions
- Fission Gas Release Behavior of High Burnup UO_2 Fuel under Reactivity Initiated Accident Conditions
- Fission Gas Induced Cladding Deformation of LWR Fuel Rods under Reactivity Initiated Accident Conditions
- Hydrogen Generation during Cladding/Coolant Interactions under Reactivity Initiated Accident Conditions
- Ring Compression Ductility of High-Burnup Fuel Cladding after Exposure to Simulated LOCA Conditions