Sato Koji | Japan Fine Ceramics Center
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概要
関連著者
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Sato Koji
Japan Fine Ceramics Center
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ISHIKAWA Yukari
Japan Fine Ceramics Center
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Sato Koji
Japan Nuclear Cycle Development Institute O-arai Engineering Center
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BESSHO Takeshi
Toyota Motor Corporation
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Kawasaki Shinji
Department Of Bioscience Tokyo University Of Agriculture
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Yao Yong-zhao
Japan Fine Ceramics Center (jfcc)
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SUGAWARA Yoshihiro
Japan Fine Ceramics Center (JFCC)
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DANNO Katsunori
Toyota Motor Corporation
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SUZUKI Hiroshi
Toyota Motor Corporation
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SHIBATA Atsuhiro
Japan Atomic Energy Agency Advanced Nuclear System Research and Development Directorate
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NOMURA Kazunori
Japan Atomic Energy Agency Advanced Nuclear System Research and Development Directorate
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Nagano Takayuki
Japan Fine Ceramics Center
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Okamura Nobuo
Japan Nuclear Cycle Development Institute
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Okamura Nobuo
Japan Atomic Energy Agency
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IWAMOTO Yuji
Japan Fine Ceramics Center
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Iwamoto Yuji
Japan Fine Ceramic Center
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Ogino Hideki
Tokai Works Japan Nuclear Cycle Development Institute
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Ogino Hideki
Japan Atomic Energy Agency (jaea)
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TAKATA Takeshi
O-arai Engineering Center, Japan Nuclear Cycle Development Institute
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Takata Takeshi
Japan Nuclear Cycle Development Institute O-arai Engineering Center
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Koma Yoshikazu
Japan Nuclear Cycle Development Institute O-arai Engineering Center
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Kamiya Masayoshi
Japan Nuclear Cycle Development Institute Tokai Works
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Koyama Tomozo
Japan Nuclear Cycle Development Institute Tokai Works
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Aose Shinichi
Japan Nuclear Cycle Development Institute Tokai Works
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Aose Shinichi
Tokai Works Japan Nuclear Cycle Development Institute
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Koyama Tomozo
Nuclear Fuel Cycle Engineering Laboratories Japan Atomic Energy Agency
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Koyama Tomozo
Japan Atomic Energy Agency
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Koma Yoshikazu
Japan Atomic Energy Agency
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Takata Takeshi
O-arai Engineering Center Japan Nuclear Cycle Development Institute
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SHIBATA Atsuhiro
Nuclear Fuel Cycle Engineering Laboratories, Japan Atomic Energy Agency
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Muto Shunsuke
Division Of Energy Science Center For Integrated Research In Science And Engineering Nagoya Universi
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Nagano Takayuki
Environmental Material Dep. Materials Res. And Dev. Lab. Japan Fine Ceramics Center
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KOJIMA Ryuji
NOK Corporation
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Nomura Kazunori
Nuclear Fuel Cycle Engineering Laboratories Japan Atomic Energy Agency
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Kamiya Masayoshi
Japan Atomic Energy Agency
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Shibata Atsuhiro
Nuclear Fuel Cycle Engineering Laboratories Japan Atomic Energy Agency
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Sato Koji
O-arai Engineering Center Japan Nuclear Cycle Development Institute
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Tozawa Katuhiro
Japan Nuclear Cycle Development Institute
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Sato Koji
Japan Nuclear Cycle Development Institute
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Bessho Takeshi
Higashifuji Technical Center Toyota Motor Corporation
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DANNO Katsunori
Higashifuji Technical Center, Toyota Motor Corporation
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SUZUKI Hiroshi
Higashifuji Technical Center, Toyota Motor Corporation
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Danno Katsunori
Higashifuji Technical Center Toyota Motor Corporation
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Shibata Atsuhiro
Nuclear Cycle Engineering Department Nuclear Fuel Cycle Engineering Laboratories Japan Atomic Energy Agency
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Matsumura Akihiro
Department of Frontier Materials, Nagoya Institute of Technology, Nagoya 466-8555, Japan
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ISHII Yosuke
Department of Cardiovascular Surgery, Nippon Medical School Chiba Hokusoh Hospital
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Yamamoto Yuta
EcoTopia Science Institute, Nagoya University, Nagoya 464-8603, Japan
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Ishi Yosuke
Department of Materials Science and Engineering, Nagoya Institute of Technology, Nagoya 466-8555, Japan
著作論文
- Development of Fine Porous Alumina Capillaries by a Dry-Wet Spinning Method(Synthesis and Processing,Guest Editors Dedicated to Prof. Gunter Petzow: Modern Trends in Advanced Ceramics)
- ICONE11-36431 Conceptual Design Study on Advanced Aqueous Reprocessing System for Fast Reactor Fuel Cycle
- ICONE11-36538 PROPOSAL OF MATERIALS TRANSFER CAPABILITY EVALUATION MODEL AND ITS APPLICATION TO PYROCHEMICAL REPROCESSING PLANT
- White Photoluminescence from Carbon-Incorporated Silica Fabricated from Rice Husk (Special Issue : Advanced Plasma Science and Its Applications for Nitrides and Nanomaterials)
- Dislocation Revelation from (0001) Carbon-face of 4H-SiC by Using Vaporized KOH at High Temperature
- Effects of Synthesis Process on Luminescence Properties and Structure of Mesoporous Carbon-Silica Nanocomposite
- Dislocation Revelation from (0001) Carbon-face of 4H-SiC by Using Vaporized KOH at High Temperature