Abstract
Methods are presented for calculating the radiation structure of a shock front in a two-phase medium with low density and an example of such a calculation is given.
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Ya. B. Zel'dovich and Yu. P. Raizer, Physics of Shock Waves and High Temperature Hydrodynamic Phenomena, Academic Press.
M. A. Heaslet and B. S. Baldwin, “Prediction of the structure of radiation-resisted shock waves,” Phys. Fluids,6, No. 12, 1682–1692 (1963).
N. M. Kuznetsov, V. M. Popov, and Yu. V. Khodyko, “Structure of shock waves in a diatomic rarefied gas taking into account radiation, chemical and vibrational relaxation,” Zh. Tekh. Fiz.,49, No. 12, 2585–2589 (1979).
Bakli, Jr., “Radiation shock waves in gas flows with solid particles,” Raket. Tekh. Kosmn.,9, No. 8, 208–213 (1971).
L. E. Sternin, Foundations of the Gas Dynamics of Two-Phase Flows in Nozzles [in Russian], Mashinostroenie, Moscow (1974).
R. Peton and A. K. Oppeiheim, “Relaxation phenomena behind shock waves in a two-phase mixture with particles in the presence of mass exchange between phases,” Raket. Tekh. Kosmn.,6, No. 1, 29–37 (1968).
V. P. Shidlovskii, Introduction to the Rarefied Gas Dynamics [in Russian], Nauka, Moscow (1965).
N. Kh. Kemp, “Note on the paper ‘Heating of micron-size particles in a supersonic free molecular flow’,” Raket. Tekh. Kosmn.,17, No. 4, 151–152 (1979).
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Translated from Inzhenerno-Fizicheskii Zhurnal, Vol. 41, No. 5, pp. 888–896, November, 1981.
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Kuznetsov, N.M., Popov, V.M. & Khodyko, Y.V. Radiation structure of the relaxation zone of a shock wave in two-phase rarefied media. Journal of Engineering Physics 41, 1247–1252 (1981). https://doi.org/10.1007/BF00824928
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DOI: https://doi.org/10.1007/BF00824928