Impact of a Relativistic Electron beam on Aluminized Cast Energetic Condensed Systems
D. N. Sadovnichii1, Yu. M. Milekhin1, Yu. G. Kalinin2, E. D. Kazakov2,3, G. S. Lavrov1, K. Yu. Sheremet'ev1
1Soyuz Federal Center of Dual Technologies, Dzerzhinsky, 140090 Russia
2Kurchatov Institute National Research Center, Moscow, 123182 Rusia
3MPEI National Research University, Moscow, 111250 Russia
Keywords: energetic condensed system, glycerol trinitrate, relativistic electron beam, shock waves, radiation effects, electrification
Abstract
The destruction of an energetic condensed system based on glycerol trinitrate, polyether urethane, and an aluminum powder from exposure to a relativistic electron beam with a maximum energy of 310 keV, a total duration of 170 ÷ 180 ns, and an average flux density of 200 ÷ 215 J/cm2 was studied by nanosecond electron-optical chronography, scanning electron microscopy, and energy dispersive analysis. The effect of the generation of pulsed electric fields and shock-wave loads accompanying relativistic electron beam absorption on the mechanical damage in samples of energetic condensed systems is discussed.
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