Electrical Conductivity Distribution in Detonating Benzotrifuroxane

Abstract Electrical conductivity profile behind the detonation front in the benzotrifuroxane (BTF) was measured using high-resolution technique. BTF is a peculiar high explosive which is completely hydrogen-free: its molecular formula is C6N6O6. Results are compared with the conductivity distributio...

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Autores principales: Nataliya Satonkina, Alexander Ershov, Alexey Kashkarov, Anatoly Mikhaylov, Eduard Pruuel, Ivan Rubtsov, Ivan Spirin, Victoria Titova
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Publicado: Nature Portfolio 2018
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Acceso en línea:https://doaj.org/article/076b1538485344238ae459643a83ee92
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spelling oai:doaj.org-article:076b1538485344238ae459643a83ee922021-12-02T15:08:50ZElectrical Conductivity Distribution in Detonating Benzotrifuroxane10.1038/s41598-018-28028-22045-2322https://doaj.org/article/076b1538485344238ae459643a83ee922018-06-01T00:00:00Zhttps://doi.org/10.1038/s41598-018-28028-2https://doaj.org/toc/2045-2322Abstract Electrical conductivity profile behind the detonation front in the benzotrifuroxane (BTF) was measured using high-resolution technique. BTF is a peculiar high explosive which is completely hydrogen-free: its molecular formula is C6N6O6. Results are compared with the conductivity distributions in detonating hexogen (RDX, C3H6N6O6) and triaminotrinitrobenzene based explosive (TATB, C6H6N6O6). The conductivity in BTF was found to be similar to that observed in the common explosives which contain hydrogen. Thus, the contribution of hydrogen (e.g., ions produced by the dissociation of water) in the conductivity is minor, both in the reaction zone and in the final detonation products. The characteristics of the conductivity profiles generally support the idea of contact conductivity through the connected structures of carbon particles formed in the detonation wave.Nataliya SatonkinaAlexander ErshovAlexey KashkarovAnatoly MikhaylovEduard PruuelIvan RubtsovIvan SpirinVictoria TitovaNature PortfolioarticleMedicineRScienceQENScientific Reports, Vol 8, Iss 1, Pp 1-7 (2018)
institution DOAJ
collection DOAJ
language EN
topic Medicine
R
Science
Q
spellingShingle Medicine
R
Science
Q
Nataliya Satonkina
Alexander Ershov
Alexey Kashkarov
Anatoly Mikhaylov
Eduard Pruuel
Ivan Rubtsov
Ivan Spirin
Victoria Titova
Electrical Conductivity Distribution in Detonating Benzotrifuroxane
description Abstract Electrical conductivity profile behind the detonation front in the benzotrifuroxane (BTF) was measured using high-resolution technique. BTF is a peculiar high explosive which is completely hydrogen-free: its molecular formula is C6N6O6. Results are compared with the conductivity distributions in detonating hexogen (RDX, C3H6N6O6) and triaminotrinitrobenzene based explosive (TATB, C6H6N6O6). The conductivity in BTF was found to be similar to that observed in the common explosives which contain hydrogen. Thus, the contribution of hydrogen (e.g., ions produced by the dissociation of water) in the conductivity is minor, both in the reaction zone and in the final detonation products. The characteristics of the conductivity profiles generally support the idea of contact conductivity through the connected structures of carbon particles formed in the detonation wave.
format article
author Nataliya Satonkina
Alexander Ershov
Alexey Kashkarov
Anatoly Mikhaylov
Eduard Pruuel
Ivan Rubtsov
Ivan Spirin
Victoria Titova
author_facet Nataliya Satonkina
Alexander Ershov
Alexey Kashkarov
Anatoly Mikhaylov
Eduard Pruuel
Ivan Rubtsov
Ivan Spirin
Victoria Titova
author_sort Nataliya Satonkina
title Electrical Conductivity Distribution in Detonating Benzotrifuroxane
title_short Electrical Conductivity Distribution in Detonating Benzotrifuroxane
title_full Electrical Conductivity Distribution in Detonating Benzotrifuroxane
title_fullStr Electrical Conductivity Distribution in Detonating Benzotrifuroxane
title_full_unstemmed Electrical Conductivity Distribution in Detonating Benzotrifuroxane
title_sort electrical conductivity distribution in detonating benzotrifuroxane
publisher Nature Portfolio
publishDate 2018
url https://doaj.org/article/076b1538485344238ae459643a83ee92
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