SUGIYAMA Hiromu | Muroran Institute of Technology
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概要
関連著者
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SUGIYAMA Hiromu
Muroran Institute of Technology
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新井 隆景
室蘭工業大学工学部機械システム工学科
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Watanabe Kazushi
Canon Inc.
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Zhang Jianping
Department Of Mechanical Engineering Muroran Institute Of Technology
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ARAI Takakage
Muroran Institute of Technology
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NAGATA Harunori
Hokkaido University
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ENDO Akira
Graduate Student, Graduate School of Muroran Institute of Technology
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MORITA Shuji
Graduate Student, Graduate School of Muroran Institute of Technology
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HOSOKAWA Hiroshi
Graduate Student, Graduate School of Hokkaido University
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Morita Shuji
Graduate Student Graduate School Of Muroran Institute Of Technology
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Takeda Hideki
Toyota Motor Co. Ltd.
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Sugiyama Hiromu
Department Of Mechanical Engineering Muroran Institute Of Technology
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HATANAKA Hideharu
Toshiba. Com. Ltd.
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TAKIMOTO Akihiko
Muroran Institute of Technology
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SHIROTA Takahiro
Muroran Institute of Technology
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Sekiyama Masato
Muroran Institure Of Technology
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TAKEDA Hideki
Muroran Institure of Technology
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ZHANG Jianping
Muroran Institure of Technology
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Endo Akira
Graduate Student Graduate School Of Muroran Institute Of Technology
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Hosokawa Hiroshi
Graduate Student Graduate School Of Hokkaido University
著作論文
- Evaluation of Supersonic Turbulent Mixing Using Catalytic Combustion of Constant Temperature Pt Wire
- A NUMERICAL METHOD FOR SUPERSONIC CONICAL FLOW WITHOUT AXIAL SYMMETRY
- An Experimental Study on Shock Waves Propagating Through a Dusty Gas : The Flow in a Horizontal Dusty-Gas Shock Tube : Fluids Engineering, Heat Transfer, Combustion, Power, Thermophysical Properties,
- A Numerical Study of Gas-Particle Supersonic Flow Past Blunt Bodies : The Case of Two-Dimensional Flow
- A Numerical Study of Gas-Particle Supersonic Flow Past Blunt Bodies : The Case of Axisymmetric Flow
- Performance Study of Shock Tubes with Area Change at the Diaphragm Section : Effects on the Shock Tube Performance of Diaphragm Location, Area Ratio and Convergent Angle
- An Experimental Study on the Locations and Structures of Pseudo-Shock Waves in Straight Rectanglar Ducts : Series B : Fluids Engineering, Heat Transfer, Combustion, Power, Thermophysical Properties