Ohyoshi Tadashi | Department Of Mechanical Engineering Faculty Of Engineering And Resource Science Akita University
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概要
- OHYOSHI Tadashiの詳細を見る
- 同名の論文著者
- Department Of Mechanical Engineering Faculty Of Engineering And Resource Science Akita Universityの論文著者
関連著者
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Ohyoshi Tadashi
Department Of Mechanical Engineering Faculty Of Engineering And Resource Science Akita University
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Kamiya Osamu
Department Of Mechanical Engineering Faculty Of Engineering And Resource Science Akita University
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Takahashi Mamoru
Department Of Agricultural Chemistry Utsunomiya University
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Takahashi Mamoru
Department Of Mechanical Engineering Faculty Of Engineering And Resource Science Akita University
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Lu Dianfeng
Graduate School of Mining and Engineering, Akita University
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Lu Dianfeng
Graduate School Of Mining And Engineering Akita University
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Miura Kimihisa
Department Of Mechanical Engineering Mining College Akita University
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Ohyoshi Tadashi
Department Of Mechanical Engineering Mining College Akita University
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Ohyoshi Tadashi
Department Of Mechanical Engineering Mining College Akita
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Takahashi Mamoru
Department Of Industrial Chemistry Faculty Of Engineering University Of Tokyo
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KAMIYA Osamu
Department of Mechanical Engineering, Faculty of Engineering and Resource Science, Akita University
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Takahashi Mamoru
秋田大学大学院工学資源学研究科機械工学専攻
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SASAKI Yuichi
東邦アセチレン株式会社
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SAITO Genji
東邦アセチレン株式会社
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KAMIYA Osamu
秋田大学大学院工学資源学研究科機械工学専攻
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OHYOSHI Tadashi
秋田大学大学院工学資源学研究科機械工学専攻
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ITO Shunichi
Semiconductor Energy Laboratory
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MIURA Kimihisa
Department of Mechanical Engineering Faculty of Engineering and Resource Science, Akita University
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TAKAHASHI Mamoru
Department of Mechanical Engineering, Akita University
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HARADA Yuji
Tokan Kogyo Co., Ltd.
著作論文
- Step Synthesis Method for Diamond Films on Tungsten Carbide Substrate Surface by Combustion Flame
- Treatment of Boundary Conditions in the Application of Wavelet-Galerkin Method to an SH Wave Problem
- Treatment of Boundary Conditions in One-Dimensional Wavelet-Galerkin Method
- Effect of Nitrogen Addition on Delamination of Synthesized Diamond Films by Flame Combustion Method Using High-Purity Acetylene
- A New Method to Prevent Delamination of Diamond Films Synthesized by the Three-Step Method Using Combustion Flame
- Synthesis of Diamond Film on Molybdenum Substrate Surface by Combustion Flame Considering the Delamination of the Interface