MORIZONO Yasuhiro | Shock Wave and Condensed Matter Research Center, Kumamoto University
スポンサーリンク
概要
関連著者
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CHIBA Akira
Department of Biology, School of Life Dentistry at Niigata, The Nippon Dental University
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NISHIDA Minoru
Department of Materials Science and Engineering, Faculty of Engineering, Kumamoto University
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西田 稔
九州大学大学院総合理工学研究院融合創造理工学部門
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MORIZONO Yasuhiro
Shock Wave and Condensed Matter Research Center, Kumamoto University
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Chiba A
Department Of Mechanical Engineering And Materials Science Kumamoto University
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Nishida Minoru
Department Of Applied Science For Electronics And Materials Kyushu University
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Chiba Akira
Department Of Biology Nippon Dental University School Of Dentistry At Niigata
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Chiba Akira
Department Of Biology Nippon Dental University
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Morizono Y
Department Of Materials Science And Engineering Graduate School Of Science And Technology Kumamoto U
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Nishida Minoru
Department Of Applied Chemistry Faculty Of Science Science University Of Tokyo Kagurazaka
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西田 稔
熊本大 工
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西田 稔
熊本大
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YAMAMURO Takateru
Department of Mechanical Engineering and Materials Science, Kumamoto University
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KANAMORI Yusuke
Department of Mechanical Engineering and Materials Science, Kumamoto University
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TERAI Takanobu
Department of Mechanical Engineering and Materials Science, Kumamoto University
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KUMAGAE Ryuhei
Fukuda metal Foil and Power Co., Ltd.
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MIZUTA Yoshiyuki
Department of Mechanical Engineering and Materials Science, Kumamoto University
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Nishida Minoru
Dep. Of Applied Sci. For Electronics And Materials Kyushu Univ.
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KUMAGAE Ryohei
Fukuda Metal Foil and Powder Co., Ltd.
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Kumagae Ryohei
Fukuda Metal Foil And Power Co. Ltd.
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Terai Takanobu
Department Of Mechanical Engineering And Materials Science Kumamoto University
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Kanamori Yusuke
Department Of Mechanical Engineering And Materials Science Kumamoto University
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Mizuta Yoshiyuki
Department Of Mechanical Engineering And Materials Science Kumamoto University
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Yamamuro Takateru
Technical Division Faculty Of Engineering Kumamoto University
著作論文
- Diffusion Bonding of TiAl Alloy to Eutectoid Steel and its Interfacial Self-destruction Behavior
- Superplasticity-like Behavior of Rapidly Solidified Ti-rich TiAl Powders and its Application to In-situ Sintering Bonding