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Self-ignition of gas in front of the flame front in a closed vessel
P. K. Senachin, V. S. Babkin
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3–8 |
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Combustion of systems containing chlorine as oxidizing agent
A. I. Rozlovskii
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8–16 |
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Spectral investigation of the combustion of magnesium particles
A. V. Florko, A. N. Zolotko, N. V. Kaminskaya, V. G. Shevchuk
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17–22 |
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Particle size of aluminum oxide particles in the combustion products of condensed substances
B. N. Fedorov, Yu. L. Plechov, È. M. Timokhin
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22–27 |
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Experimental investigation of entropy waves during unstable combustion in the chamber of a gas turbine engine
V. E. Doroshenko, V. M. Sil'verstov
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27–34 |
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Stationary propagation of a combustion wave in condensed substances with parallel reactions
I. S. Lyubchenko, D. M. Puchkov, G. N. Marchenko
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34–42 |
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Some characteristics of combustion of homogeneous mixtures in a turbulent flow
I. B. Samoilov, V. P. Bogoslovskii
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42–45 |
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Measurement of the concentration profiles of reacting components and temperature in an ammonium perchlorate flame
N. E. Ermolin, O. P. Korobeinichev, A. G. Tereshchenko, V. M. Fomin
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46–49 |
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Investigation of the mechanism of chemical ionization accompanying high-temperature oxidation of methane in shock waves
G. S. Aravin, P. A. Vlasov, Yu. K. Karasevich, E. V. Makolkin, M. G. Neigauz
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49–57 |
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Investigation of the characteristics of cold-flame oxidation of hydrocarbon mixtures as a function of their octane numbers
Ya. Yu. Stepanskii, G. S. Yablonskii, V. I. Bykov
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57–61 |
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Mechanism for critical behavior of a chemically reacting system under the action of laser radiation
G. K. Vasil'ev, E. F. Makarov, Yu. A. Chernyshev, V. G. Yakushev
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61–66 |
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Analysis of equilibrium flows of chemically reacting gases
Yu. A. Nikolaev, P. A. Fomin
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66–72 |
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Conditions of exothermal conversion in a porous bed with diffusional supply of gaseous reagent
S. I. Khudyaev, A. S. Steinberg, V. B. Ulybin, N. E. Kolovertnykh
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72–79 |
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Detonation of highly dilute porous explosives. II. Influence of inert additive on the structure of the front, the parameters, and the reaction time
K. K. Shvedov, A. I. Aniskin, A. N. Il'in, A. N. Dremin
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79–90 |
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Heat and mass transfer in an explosion
I. G. Zakharova
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91–94 |
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Comparison of the air explosion waves from different sources
V. A. Gorev
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94–101 |
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Allowance for anisotropy in the surface waves in explosion of a set of charges arranged on a straight line in a shallow pond
Yu. A. Kronin
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101–109 |
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Excitation by a gas detonation of shock waves in tubes
T. P. Gavrilenko, V. V. Grigor'ev, S. A. Zhdan, Yu. A. Nikolaev, V. I. Fedenok
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109–114 |
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Phase transformation in titanium in shock waves
A. N. Kiselev, A. A. Falkov
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115–119 |
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Equation of state and isentropy of the detonation products of typical condensed explosives
V. M. Kuznetsov, N. M. Kuznetsov, A. F. Shatsukevich
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120–124 |
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Experimental investigation of the concentration ignition limits of ternary mixtures of the type hydrocarbon-ethyl bromide-air
B. A. Tereshina, A. V. Ivanov, Yu. N. Shebeko
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124–125 |
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High-temperature oxidation and thermal ignition of a metallic plate with rapid heating
V. S. Savinich
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126–128 |
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Simplified mathematical model of unattached turbulent diffusion flame
A. B. Lebedev
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128–130 |
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Cellular flame structure and turbulent combustion
V. P. Karpov
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130–133 |
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Effect of temperature on the lower concentration limit of flame propagation in air suspensions
A. Ya. Korolchenko, A. V. Perov, Yu. N. Shebeko
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133–134 |
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Effect of the addition of lead oxide on the surface temperature of ballistite powder using thermal surface noise
V. M. Zenchenko, Yu. S. Ivashchenko, V. S. Eremeev, V. L. Pavlenko
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135–136 |
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Effect of metastability on combustion of liquid substances
A. N. Vasil'ev, N. I. Khramov
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136–139 |
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Critical diameter of a stationary detonation of condensed high explosives in connection with the possibility of their decomposition in a shock
V. S. Trofimov
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139–140 |
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Determination of the pressing parameters of porous bodies by a high explosive charge through a metal plate
A. A. Shtertser
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141–142 |
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Two-phase detonation above a fuel layer
N. I. Zverev, N. N. Smirnov
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143–145 |
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