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Study of long-duration friction of a chemically active powder
E. V. Chernenko, N. I. Vaganova, L. F. Afanas'eva
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3–10 |
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On the mechanism of ignition of condensed secondary explosives by a laser pulse
A. V. Chernai
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11–19 |
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Regimes of ignition of a porous body using a heat flux
R. S. Burkina, A. M. Timokhin
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20–25 |
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Approximate estimates of the characteristics of propellant ignition using radiant flux through shields with various properties
A. G. Knyazeva
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26–41 |
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Experimental investigation of gas combustion regularities in narrow tubes
V. V. Zamashchikov
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42–47 |
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Heat-release measurement in “gasless” combustion of a titanium-carbon mixture in a nonhermetic shell
K. A. Babayan, V. P. Kobyakov, L. B. Mashkinov, I. D. Chashechkin
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48–52 |
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The effect of density on the limits and regularities of spin combustion of titanium in nitrogen
A. K. Filonenko, V. V. Barzykin
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53–57 |
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Directed self-propagating high-temperature synthesis of a series of explosion-emissive metalloceramic materials
V. I. Boyko, O. Yu. Dolmatov, O. A. Nuzhin, I. V. Shamanin
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58–65 |
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Thermodynamic calculation of detonation in poorly mixed gas mixtures
V. N. Mikhalkin
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66–70 |
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On the detonation velocity in a sensitive-explosive particle suspension in vacuum
V. Yu. Lyapidevskii
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71–74 |
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Numerical and analytical study of magnesium particle ignition
A. V. Fedorov
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75–84 |
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Mathematical modeling of dispersion of a compressed burning monofuel gas suspension in a shock tube
A. G. Kutushev, O. N. Pichugin
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85–93 |
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Numerical study of detonation in CH$_4$ (H$_2$) + air mixtures behind shock waves
N. G. Dautov, A. M. Starik
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94–110 |
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The effect of viscosity on the detonation stability of diethylene glycol dinitrate
G. D. Kozak, B. N. Kondrikov, M. Yu. Eliseenkov, Yu. S. Zhuk
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111–114 |
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Solid-phase reactions in shock waves: Kinetic studies and mechanism
S. S. Batsanov
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115–128 |
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Initiation of detonation in liquid explosive mixtures by an incomplete electric spark discharge
E. V. Zotov
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129–135 |
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