Abstract
This chapter summarizes the experimental results we have worked on shock/bubble interaction problems continuously over 40 years in the Institute of Fluid Science, Tohoku University. At the same time, this project is a baseline of a medical application of underwater shock waves. Upon the gas bubble collapse by underwater shock loading, the small but high-speed liquid jet is created. This chapter reports experimental results of the jet formation, that is, the liquid jet formed by the bubble collapse is governed by a parameter, the ratio of sound speeds of liquids to that of gases.
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References
Takayama, K.: Application of double exposure holographic interferometry to shock wave research. Proc. SPIE 398, 174–180 (1983)
Sanada, N., Asano, O., Ikeuchi, J., Takayama, K., Onodera, O.: Interaction of a gas bubble with underwater shock waves, pit formation on a metal surface. In: Proceedings of 16th International Symposium on Shock Tubes and Waves, pp. 311–317, Aachen (1987)
Takayama, K., Igra, O.: Tribute and Memory of Professor I. I. Glass. Springer, Heidelberg (2012)
Takayama, K.: Holographic interferometric study of shock wave propagation in two-phase media. In: Proceedings of 16th International Symposium on Shock Tubes and Waves, pp. 52–61, Aachen (1987)
Acknowledgments
The author wishes to express his sincere gratitude to Dr. Dan Igra for his kind help in organizing the present paper.
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Takayama, K. (2017). A Summary of the Experiments of Shock/Bubble Interactions Performed in IFS Since 1980. In: Ben-Dor, G., Sadot, O., Igra, O. (eds) 30th International Symposium on Shock Waves 2. Springer, Cham. https://doi.org/10.1007/978-3-319-44866-4_35
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DOI: https://doi.org/10.1007/978-3-319-44866-4_35
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