Internal Explosion Performance of RDX@Nano-B Composite Explosives

Boron powder is an additive for metalized explosives with great application potential. To improve the energy release ability of boron powder, the composites of RDX and nano-boron (RDX@Nano-B) were prepared by the spray-drying process, and the metalized explosives based on it were designed (named PBX...

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Bibliographic Details
Published in:Nanomaterials (Basel, Switzerland) Switzerland), 2023-01, Vol.13 (3), p.412
Main Authors: Xi, Peng, Sun, Shiyan, Shang, Yu, Wang, Xiaofeng, Dong, Jun, Feng, Xuesong
Format: Article
Language:English
Subjects:
Aluminum
Boron
boron nano-powder
boron-containing composites
Carbon dioxide
Composite materials
Detonation
Energy
Explosions
Explosives
Heat
internal explosion performance
Mechanical properties
metalized explosives
Morphology
Nanoparticles
Nitrogen
Particle size
PBX (explosives)
Peak pressure
Powders
Pressure
RDX
Sensors
Vacuum
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Summary:Boron powder is an additive for metalized explosives with great application potential. To improve the energy release ability of boron powder, the composites of RDX and nano-boron (RDX@Nano-B) were prepared by the spray-drying process, and the metalized explosives based on it were designed (named PBX-B1). The detonation heat and explosion pressure of boron-containing explosives PBX-B1 under vacuum and air conditions were measured and analyzed by an internal explosion test. On the other hand, the equilibrium pressure and energy release of the PBX-B1 explosive system after detonation were analyzed and compared with that of an explosive formulation of the same composition (named PBX-B2). Results showed that the detonation heat of PBX-B1 was 7456 J/g in a vacuum environment, which was 34.8% higher than that of RDX (5530 J/g). However, in the air environment, the detonation heat of PBX-B1 increased by 19.2% compared with that in the vacuum environment, and the explosive gas products mainly included N , NO , CO, H O, CH , HCN, and CO . The peak pressure and equilibrium pressures of PBX-B1 were 11.2 and 0.42 MPa, which were increased by 155% and 75% compared with the vacuum environment, respectively. It is worth noting that, compared with that of PBX-B2, the released energy in the aerobic combustion stage and equilibrium pressure of PBX-B1 were increased by 49.8% and 10.5%. This study demonstrated the strategy of improving the energy release of boron-containing metalized explosives through the design of an explosive microstructure, which provides important clues for the design of higher-energy metalized explosives.
ISSN:2079-4991
2079-4991
DOI:10.3390/nano13030412