A Method for Estimation of Blast Performance of RDX‐IPN‐Al Annular Thermobaric Charges

Iorga, Ovidiu; Țigănescu, Tudor Viorel; Sućeska, Muhamed; Rotariu, Traian; Marin, Alexandru; Munteanu, Mihail; Zecheru, Teodora; Ginghină, Raluca Elena

doi:10.1002/prep.202100007

Cited by 2 publications

(1 citation statement)

References 14 publications

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“…These characteristics make this kind of explosive (mainly aiming to soft targets) a strong ability to damage targets (much effective impulse) and a large damage range (the shock wave decays slowly). At the same time, these characteristics require this kind of explosive to release high energy and match the energy reaction rate [7][8][9][10] . Therefore, the reaction rate and completeness of the fuel in explosives are the core technologies for designing thermobaric explosives.…”

Section: Introductionmentioning

confidence: 99%

Combustion-supporting effect of boron powder on aluminum powder

Zhang¹,

Guo²,

Huang³

2023

J. Phys.: Conf. Ser.

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Aluminum powder is a very important component in both explosives and propellants. Due to the formation of a dense oxide layer Al2O3 at the surface of aluminum, it is very difficult for aluminium powder to react completely, which is the biggest problem at present. For improving the completeness of the reaction of aluminum powder, six kinds of combustion accelerants, ferrocene, ammonium perchlorate, Fe2O3, fluororubber F246, perfluorosurfactant HX-12 and boron powder were selected to study their combustion-supporting effect on aluminum powder by differential scanning calorimetry (DSC) method. The research results show that the six reagents have certain combustion-supporting effects, but the combustion-supporting effect of boron powder is particularly significant. Two extra exothermic peaks appeared as adding small amount of boron powder to aluminum powder. When the content of boron powder is 10 wt % of aluminum powder, the total exothermic heat is more than twice than that of pure aluminum powder FLQT-4. In short, boron powder is a very promising combustion accelerant.

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Section: Introductionmentioning

confidence: 99%

Combustion-supporting effect of boron powder on aluminum powder

Zhang¹,

Guo²,

Huang³

2023

J. Phys.: Conf. Ser.

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Blast performance of isopropyl nitrate-based thermobaric explosives vs. cast-cured PBX

Bajić,

Terzić,

Timotijević

et al. 2024

11th International Scientific Conference on Defensive Technologies - OTEX 2024 - Zbornik Radova

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Thermobaric explosives are currently among most studied energetic formulations, due to their extraordinary combination of blast and thermal effects. They may be in the form if liqud explosive mixtures, often denoted as fuel-air explosives (FAE) or solid explosive charges, as solid fuel-air explosives (SFAE) or thermobaric explosives (TBE, TBX). This study compares the blast effect of selected formulations of the two types of thermobarics in field test. As FAE, compositions were prepared based on gelled isopropyl nitrate with metal particles as fuel component, and as TBE a multi-component polymer bonded explosive (PBX) was prepared, based on octogene, aluminium powder, ammonium perchlorate and a polymer binder. The selected explosive formulations were prepared as cylindrical charges of 5 kg and activated with electric detonator at 2 m height in open field test. The characteristics of the blast wave in air (maximum overpressure, duration of the positive phase of the pressure and impulse) were measured at different distances from the activation spot, using piezoelectric gauges. Also, the thermal effect of the explosions was observed with infra red imaging technique.

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A Method for Estimation of Blast Performance of RDX‐IPN‐Al Annular Thermobaric Charges

Cited by 2 publications

References 14 publications

Combustion-supporting effect of boron powder on aluminum powder

Combustion-supporting effect of boron powder on aluminum powder

Blast performance of isopropyl nitrate-based thermobaric explosives vs. cast-cured PBX

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