Abstract
Paper presents results of optical flow visualization, mostly of double exposure holographic interferometry applied to various shock wave phenomena at the Shock Wave Research Center of the Institute of Fluid Science, Tohoku University. Topics described here are: 1) shock propagation over perforated walls in air; 2) shock wave interaction with a gaseous interface, a soap bubble filled with helium; 3) three-dimensional visualization of a supersonic flying projectile in air; and 4) underwater shock wave interaction with gas bubbles and gaseous interfaces.
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References
Abdel-Fattah AM, Henderson LF (1978a) Shock waves at a fast-slow interface. J. Fluid Mech. 86: 15
Abdel-Fattah AM, Henderson LF (1978b) Shock waves at a slow-fast interface. J. Fluid Mech. 89: 79
Benjamin RF, Besnard D, Haas J-F (1992) Richtmyer-Meshkov instability of shocked gas. In: Takayama K (ed) Shock Waves, Proc. 18th ISSW, Sendai, pp 325–330
Bershader D (1987) Shock tube studies of vortex structure and behaviour. In: Grönig H (ed) Shock Tubes and Waves, Proc. 16th Intl. Symp. on Shock Tubes and Waves, Aachen, pp 5–18
Gabor D (1948) A new microscopic principle. Nature 161: 777
Itoh K, Takayama K (1985) Unsteady drag of cylinders and aerofoils in transonic shock tube flow. In: Bershader D, Hanson RK (eds) Shock Waves and Shock Tubes, Proc. 15th Intl. Symp. on Shock Waves and Shock Tubes, Stanford, pp 479–485
Jahn RG (1956) The refraction of shock waves at a gaseous interface. J. Fluid Mech. 1: 457
Matsumura S, Ouchi H, Sasoh A, Takayama K (1993) Velocity interferometric study of the performance of a gas gun. These Proceedings
Meshkov EE (1969) Instability of the interface of two gases accelerated by a shock wave. Soviet Fluid Dynamics 4: 101
Nagoya H (1994) Experimental study of Richtmyer-Meshkov instability. Master Thesis, Graduate School of Tohoku University
Russell D, Buonadonna VR, Jones TG (1973) Double expansion nozzle for shock tunnels and Lud-wieg tubes. In: Bershader D, Griffith W (eds) Recent Developments in Shock Tube Research, Proc. 9th Intl. Shock Tube Symp., Stanford, pp 238–249
Takayama K (1987) Holographic interferometric study of shock wave propagation in two-phase media. In: Grönig H (ed) Shock Tubes and Waves, Proc. 16th Intl. Symp. on Shock Tubes and Waves, Aachen, pp 51–62
Trolinger (1974) Laser instrumentation for flow field diagnostics. AGARDograph AGARD-AG186
Yamada K, Obara T, Nagoya H, Takayama K (1992) Interaction of a shock wave with an air bubble in silicone oil. In: Sawaoka A (ed) Symposium on Shock Waves, Japan ’82, Tokyo, pp 585–588
Yang JM, Takayama K (1994) Performance of diaphragmless shock tube for producing weak shock waves. JSME Transaction (to be published)
Wortberg G (1973) Holographic interferometer for gasdynamic measurements. In: Bershader D, Griffith W (eds) Recent Developments in Shock Tube Research, Proc. 9th Intl. Shock Tube Symp., Stanford, pp 267–278
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© 1995 Springer-Verlag Berlin Heidelberg
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Takayama, K. (1995). Optical Flow Visualization of Shock Wave Phenomena (Paul Vieille Memorial Lecture). In: Brun, R., Dumitrescu, L.Z. (eds) Shock Waves @ Marseille IV. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-79532-9_2
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DOI: https://doi.org/10.1007/978-3-642-79532-9_2
Publisher Name: Springer, Berlin, Heidelberg
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