HAZUKU Tatsuya | Tokyo University of Mercantile Marine
スポンサーリンク
概要
関連著者
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TAKAMASA Tomoji
Tokyo University of Mercantile Marine
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HAZUKU Tatsuya
Tokyo University of Mercantile Marine
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Hazuku Tatsuya
Tokyo University Of Marine Science And Technology
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Takamasa Tomoji
Tokyo University Of Marine Science And Technology
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Okamoto Koji
University Of Tokyo
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MISHIMA Kaichiro
Kyoto University
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Furuya M
Central Research Institute Of Electric Power Industry
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Furuya Masahiro
Central Research Institute Of Electric Power Industry (criepi)
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Tamura Naohisa
Tokyo University Of Mercantile Marine
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Furuya Masahiro
Central Research Institute Of Electric Power Industry
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Fukamachi Norihiro
Faculty of Marine Technology Tokyo University of Marine Science and Technology
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FUKAMACHI Norihiro
Tokyo University of Mercantile Marine
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Imai Yasuyuki
University Of Tokyo
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日引 俊
School of Nuclear Engineering, Purdue University
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日引 俊
School Of Nuclear Engineering Purdue University
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ISHII Mamoru
School of Nuclear Engineering, Purdue University
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Ishii M
School Of Nuclear Engineering Purdue University
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Ishii Mamoru
School Of Nuclear Engineering Purdue University
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Hibiki Takashi
Research Reactor Institute Kyoto University
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MISHIMA Kaichiro
Research Reactor Institute, Kyoto University
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MITSUTAKE Toru
Toshiba Corporation
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MOROOKA Shinichi
Toshiba Corporation
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Mitsutake Toru
Toshiba
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OKAMOTO Koji
Nuclear Engineering Research Laboratory University of Tokyo
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ZHANG Jian
Kyoto University
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IMAI Yasuyuki
Nuclear Engineering Research Laboratory, University of Tokyo
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Koga Tatsuya
Tokyo University of Mercantile Marine
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Mishima Kaichiro
Research Reactor Institute Kyoto University
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Morooka Shinichi
Toshiba
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Okamoto Koji
Nuclear Engineering Research Laboratory Faculty Of Engineering University Of Tokyo
著作論文
- ICONE11-36391 INTERFACIAL AREA TRANSPORT OF BUBBLY FLOW AT LOW LIQUID REYNOLDS NUMBER UNDER MICROGRAVITY ENVIRONMENT
- ICONE11-36540 MEASUREMENT ON LIQUID FILM IN MICROCHANNELS USING LASER FOCUS DISPLACEMENT METER
- Reflooding Experiments on a Vertical Surface with Radiation-Induced Surface Activation
- Effect of Radiation Induced Surface Activation on Quenching Condition
- TED-AJ03-362 RADIATION INDUCED SURFACE ACTIVATION : WETTABILITY CAUSED BY SELF INDUCED ACTIVATION
- ICONE11-36523 SURFACE WETTABILITY AND LEIDENFROST CONDITION ON OXIDIZED METALS CAUSED BY RADIATION INDUCED SURFACE ACTIVATION