HIRATA Yoshihiro | Kagoshima University, Department of Advanced Nanostructured Materials Science and Technology
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概要
- 同名の論文著者
- Kagoshima University, Department of Advanced Nanostructured Materials Science and Technologyの論文著者
関連著者
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HIRATA Yoshihiro
Kagoshima University, Department of Advanced Nanostructured Materials Science and Technology
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Shibuya Masaki
Tyranno Fiber Development Project Ube Industries Ltd.
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松永 直樹
FAIS
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KAYAMA TSUNEO
Krosaki Harima Corporation
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HORITA Teruhisa
Fuel Cell Group, Energy Electronics Institute, National Institute of Advanced Industrial Science and
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SHIMONOSONO Taro
Kagoshima University, Department of Advanced Nanostructured Materials Science and Technology
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EHIRA Yuka
Kagoshima University, Department of Advanced Nanostructured Materials Science and Technology
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SAMESHIMA Soichiro
Kagoshima University, Department of Advanced Nanostructured Materials Science and Technology
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SUGIMOTO Joe
Kagoshima University, Department of Advanced Nanostructured Materials Science and Technology
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MAEDA Tomoyuki
Kagoshima University, Department of Advanced Nanostructured Materials Science and Technology
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KOREEDA Yuki
Kagoshima University, Department of Advanced Nanostructured Materials Science and Technology
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DONG Rulin
Kagoshima University, Department of Advanced Nanostructured Materials Science and Technology
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Matsunaga Naoki
Department Of Applied Chemistry And Chemical Engineering Kagoshima University
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YOSHITOMI JYOKI
Krosaki Harima Corp.
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松永 直樹
鹿児島大学大学院 理工学研究科化学生命・化学工学専攻
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Matsunaga Naoki
Department Of Chemistry Biotechnology And Chemical Engineering Kagoshima University
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KAYAMA Tsuneo
Krosaki : Harima Corp.
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MATSUNAGA Naoki
Kagoshima University
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HIRATA Yoshihiro
Kagoshima University
著作論文
- 09-O-25 Electronic Conductivity Measurement of Gd- and Sm-Doped Ceria Ceramics by Hebb-Wagner Method
- 05-O-23 Tensile Strength and Weibull Modulus of the Si-Ti-C-O Fiber Yarn and Woven Fabric
- 05-O-17 Processing, Microstructures and Mechanical Properties of Laminated Composites of the Si-Ti-C-O Fabric/Ceramic Filler/Polytitanocarbosilane System with Pseudoductility by Polymer Impregnation and Pyrolysis (PIP) Method
- 04-O-05 Analysis of Microstructure of the Two-Component Powder Compact by Electrical Conductivity Measurement
- 04-I-04 Processing and Mechanical Properties of Fiber-Reinforced Oxide Matrix Composites with High Damage Tolerance
- Theoretical Analysis of the Thermal Conductivity of Graphite-containing Refractory Brick