Abstract
Jetting in cylindrical cumulation is an elusive process. This paper investigates cumulative jetting during the compression of cylindrical shells by means of a hydrodynamic model and numerical simulation. A method for improving jetting in cylindrical cumulation that increases the radial velocity of shell convergence has been proposed and substantiated. The critical factor in the jet-formation zone—high temperature—is outlined. A method of normalizing the temperature in the jet-formation zone using a small diameter tube inside the main cladding made of refractory niobium has been proposed. Thus, suggestions were made to improve cumulative jetting in cylindrical cumulation.
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Translated by M. Drozdova
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Potanina, E.Y., Litvinov, V.L., Guskov, A.V. et al. Jetting in Cylindrical Cumulation. Tech. Phys. 68, 315–321 (2023). https://doi.org/10.1134/S1063784223700068
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DOI: https://doi.org/10.1134/S1063784223700068