Effect of the degree of dispersion on the detonation wave structure in pressed TNETB |
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Authors: | V M Mochalova A V Utkin A V Anan’in |
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Affiliation: | (1) Institute of Problems of Chemical Physics, Russian Academy of Sciences, Chernogolovka, 142432 |
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Abstract: | A VISAR interferometer was used to study the reaction zone in steady-state detonation waves in pressed TNETB at different
initial densities (1.23–1.71 g/cm3) and degrees of dispersion (5 and 80 μm) of the initial powdered high explosive (HE). The initial density range in which
a pressure rise was observed instead of the theoretically predicted chemical spike is shown to depend on the degree of dispersion
of the HE. The unusual change in the parameters in the reaction zone is explained by the heterogeneous structure of pressed
HEs, whose decomposition has a local nature and proceeds partially at the compression wave front. A technique for recording
wave profiles using LiF windows was developed, which confirmed that all qualitative features observed when using aluminum
foils ≈200 μm thick and a water window reliably reflect the detonation wave structure.
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Translated from Fizika Goreniya i Vzryva, Vol. 43, No. 5, pp. 90–95, September–October, 2007. |
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Keywords: | pressed explosive TNETB density degree of dispersion detonation wave structure reaction zone without a chemical spike VISAR laser interferometer LiF window |
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