Shi Hong-hui | Department Of Mechanical Engineering Nagoya Institute Of Technology
スポンサーリンク
概要
関連著者
-
Shi Hong-hui
Department Of Mechanical Engineering Nagoya Institute Of Technology
-
Itoh Motoyuki
Department Of Mechanical Engineering Nagoya Institute Of Technology
-
ITOH Motoyuki
Department of Mechanical Engineering, Nagoya Institute of Technology
-
Shi Hong-hui
Department Of Mechanics Zhejiang Universily
-
Wang Xiao-liang
Department Of Mechanical Engineering Nagoya Institute Of Technology
-
KISHIMOTO Masami
Department of Food and Nutrition, Kyoto Women's University
-
Kishimoto Masami
Department Of Food And Nutrition Kyoto Women's University
-
Takayama Kazuyoshi
Shock Wave Research Center Institute Of Fluid Science Tohoku University
-
Wang Xiao-liang
Department Of Physics Xiangtan University
-
Wang X‐l
Department Of Mechanical Engineering Nagoya Institute Of Technology
-
WANG Xiaoliang
Department of Chinese Pharmacy, P.O.B.3, Beijing University of Traditional Chinese Medicine
-
Wang Xiaoliang
Department Of Chinese Pharmacy P.o.b.3 Beijing University Of Traditional Chinese Medicine
-
Kishimoto Masami
Department Of Mechanical Engineering Nagoya Institute Of Technology
-
SHI HongHui
Department of Mechanics, Zhejiang University
-
Shi H‐h
Department Of Mechanics Zhejiang University
-
Itoh M
Department Of Mechanical Engineering Nagoya Institute Of Technology
-
HIGASHIURA Kiyohiko
Formerly graduate student, now belong to Kobe Factory, Kawasaki Heavy Industry Co.
-
KOSHIYAMA Kazuki
Department of Mechanical Engineering, Nagoya Institute of Technology
-
Koshiyama Kazuki
Department Of Mechanical Engineering Nagoya Institute Of Technology:graduate School Nagoya Institute
-
Higashiura Kiyohiko
Formerly Graduate Student Now Belong To Kobe Factory Kawasaki Heavy Industry Co.
著作論文
- Experimental Study of Rayleigh-Taylor Instability in a Shock Thbe Accompanying Cavity Formation : General Physics
- Acceleration of Water Column and Generation of Large Flow Rate Water Spray by Shock Tube
- Generation of Hypervelocity Liquid Jets Using a Powder Gun and Impact Experiment
- Generation of High-Speed Liquid Jet from a Rectangular Nozzle
- Further Study of the Generation Technique of High-Speed Liquid Jets and Related Shock Wave Phenomena Using a Helium Gas Gun
- Design and Experiment of a Small High-Speed Liquid Jet Apparatus
- Generation of High-Speed Liquid Jets by High-Speed Impact of a Projectile