Detonation Mechanism of PETN Explosives with Sodium Hydrocarbonate

Detonation Mechanism of PETN Explosives with Sodium Hydrocarbonate

The detonation of mixtures of highly dispersed PETN with sodium bicarbonate with a mass fraction of the latter up to 90% is investigated using radio interferometric method and electron-optical method NANOGATE-22 along with a method using a polyvinylidene fluoride pressure sensor. The experimental re...

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Veröffentlicht in:Combustion, explosion, and shock waves explosion, and shock waves, 2020-11, Vol.56 (6), p.716-724
Hauptverfasser: Spirin, I. A., Pronin, D. A., Mitin, E. S., Simakov, V. G., Bragunets, V. A., Tsvetkov, A. V., Shestakov, E. E., Sustaeva, Yu. M., Shevlyagin, O. V., Vakhmistrov, S. A.
Format: Artikel
Sprache:eng
Schlagworte:
Classical and Continuum Physics
Classical Mechanics
Control
Dynamical Systems
Energy & Fuels
Engineering
Engineering, Chemical
Engineering, Multidisciplinary
Materials Science
Materials Science, Multidisciplinary
Physical Chemistry
Physical Sciences
Physics
Physics and Astronomy
Science & Technology
Technology
Thermodynamics
Vibration
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Zusammenfassung:The detonation of mixtures of highly dispersed PETN with sodium bicarbonate with a mass fraction of the latter up to 90% is investigated using radio interferometric method and electron-optical method NANOGATE-22 along with a method using a polyvinylidene fluoride pressure sensor. The experimental results obtained indicate the possibility of the existence of various detonation regimes in mixtures. If the mass fraction of NaHCO 3 is  ≤ 85%, the detonation wave propagation is mainly due to shock compression. At a higher NaHCO 3 content (90%), the jets of explosion products predominantly serve as propagation agents.
ISSN:0010-5082
1573-8345
DOI:10.1134/S0010508220060118