Effect of Applied Axial Magnetic Field on the Propagation of Cylindrical Shock Wave Generated by Exploding Wire
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概要
- 論文の詳細を見る
The magnetohydrodynamic effect of an axial magnetic field on the cylindrical shock is studied theoretically on the basis of the blast wave theory. The result shows the reduced velocity of the shock front due to the applied magnetic field. Experiments were also carried out by use of exploding wires with or without magnetic field. The differences in shock arrival times of these two cases are compared and these are in satisfactory agreement with the above theoretical result.
- 社団法人日本物理学会の論文
- 1970-05-05
著者
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SAKURAI Akira
Tokyo Denki University
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Sakurai Akira
Tokyo Electrical Engineering College
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TAKAO Toshiharu
Tokyo Electrical Engineering College
関連論文
- Corrigendum to "On the von Neumann paradox of weak Mach reflection" [Fluid Dyn. Res. 4 (1989) 333]
- An Analytical Solution for Weak Mach Reflection and Its Application to the Problem of the von Neumann Paradox(Electromagnetism, Optics, Acoustics, Heat Transfer, Classical Mechanics and Fluid Mechanics)
- Interaction of Cylindrical Shock Wave with Applied Magnetic Field Parallel to the Axis
- The Flow due to Impulsive Motion of a Wedge and its Similarity to the Diffraction of Shock Waves
- Chapter V Magneto-Fluid Dynamical Shock Wave
- On Extraordinary Phenomena in a Non-linear Forced Oscillation
- On the Propagation and Structure of a Blast Wave, II
- Decrement of Blast Wave
- Effect of Applied Axial Magnetic Field on the Propagation of Cylindrical Shock Wave Generated by Exploding Wire
- On the Thickness of Plane Shock Wave in a Gas in Turbulent Motion.
- Effect of Magnetic Field on Dwell in Exploding Wire
- Motion of Distorted Vortex Rings
- On the Propagation and Structure of the Blast Wave, I