Initiating Aluminized High Explosives by Laser Radiation

Initiating Aluminized High Explosives by Laser Radiation

A number of physical and chemical processes occurring under the action of a laser pulse in nanosized aluminum and aluminized explosives on the basis of fine-grained PETN and benzotrifuroxane along with estimates of the effect of aluminum of the explosive transformation dynamics in these explosives c...

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Veröffentlicht in:Combustion, explosion, and shock waves explosion, and shock waves, 2018-09, Vol.54 (5), p.563-569
Hauptverfasser: Sheikov, Yu. V., Bat’yanov, S. M., Kalashnikova, O. N., Lukovkin, O. M., Mil’chenko, D. V., Vakhmistrov, S. A., Mikhailov, A. L.
Format: Artikel
Sprache:eng
Schlagworte:
Aluminizing
Aluminum
Chemical reactions
Classical and Continuum Physics
Classical Mechanics
Compression waves
Control
Dynamical Systems
Engineering
Explosive compacting
Explosives
HMX
Lasers
Longitudinal waves
Organic chemistry
PETN
Physical Chemistry
Physics
Physics and Astronomy
Rapid prototyping
RDX
Transformations
Vibration
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Beschreibung
Zusammenfassung:A number of physical and chemical processes occurring under the action of a laser pulse in nanosized aluminum and aluminized explosives on the basis of fine-grained PETN and benzotrifuroxane along with estimates of the effect of aluminum of the explosive transformation dynamics in these explosives conclude that it is possible to initiate aluminized explosives by laser radiation. The estimated and experimental results show that the main source of hot spots capable of causing an explosive transformation in aluminized explosives under the action of a laser pulse can be a compression wave that forms as a result of rapid evaporation of a sufficient number of aluminum particles. It is shown experimentally that aluminized explosives based on fine-grained RDX and HMX can be initiated by a laser pulse whose source is no more powerful than that in the case of PETN and benzotrifuroxane.
ISSN:0010-5082
1573-8345
DOI:10.1134/S0010508218050088