Search Results - "ZARKO, V. E"

Combustion of nano aluminum particles (Review) by Sundaram, D. S., Yang, V., Zarko, V. E.

“…Nano aluminum particles have received considerable attention in the combustion community; their physicochemical properties are quite favorable as compared with…”
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Errors in Using Balance Relations in the Theory of Combustion of Condensed Systems by Zarko, V. E.

“…Due to the total lack of reliable experimental data on the kinetics of solid-phase transformations at high temperatures, adequate estimates of the ignition and…”
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Searching for ways to create energetic materials based on polynitrogen compounds (review) by Zarko, V. E.

“…Polynitrogen compounds (containing only nitrogen atoms) are promising candidates as energetic materials for rocket engineering. The high energy content of…”
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Excessive Subsurface Heat Release As a Possible Cause of the Negative Erosion Effect during Combustion of Homogeneous Solid Propellants by Gusachenko, L. K., Zarko, V. E., Kiskin, A. B.

“…An increase in the burning (gasification) rate of solid propellants exposed to a sufficiently intense gas crossflow was discovered experimentally in the 1940s…”
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Formation of charged aggregates of Al2O3 nanoparticles by combustion of aluminum droplets in air by Karasev, V V, Onischuk, A A, Glotov, O G, Baklanov, A M, Maryasov, A G, Zarko, V E, Panfilov, V N, Levykin, A I, Sabelfeld, K K

“…The mechanism of Al2O3 nanoparticles aggregation in air was studied under atmospheric pressure conditions. Alumina nanoparticles were generated by combustion…”
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New directions in the area of modern energetic polymers: An overview by Badgujar, D. M., Talawar, M. B., Zarko, V. E., Mahulikar, P. P.

“…Energetic polymers containing nitro, nitrato, and azido groups release high energy during combustion and thereby increase the performance of the systems. A…”
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Recent Advances in Safe Synthesis of Energetic Materials: An Overview by Badgujar, D. M., Talawar, M. B., Zarko, V. E., Mahulikar, P. P.

“…The development of novel energetic materials with highest possible performance is of current interest. Synthesis of such materials is performed at various…”
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Improved Microwave Method for Measuring the Dynamic Parameters of Gasification of Condensed Materials by Podshivalov, A. I., Grishin, Yu. A., Kiskin, A. B., Zarko, V. E.

“…A new microwave technique for measuring the transient gasification rate is described. A feature of the technique is that the mass loss during gasification is…”
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Initiation of the Decomposition of a Semi-Transparent Mixture of Energetic Materials by Knyazeva, A. G., Zarko, V. E.

“…In this paper, we propose a model for the heating and decomposition of a binary mixture of energetic materials by a short laser pulse which takes into account…”
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Critical Review of the Methods to Measure the Condensed Systems Transient Regression Rate by V. E. Zarko

“…Accurate knowledge of steady state and transient burning rate of solid fuels and energetic materials is very important for evaluating the performance of…”
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Synthesis of Aluminum Diboride by Thermal Explosion in Mechanically Activated Mixtures of Initial Reactants by Korchagin, M. A., Gavrilov, A. I., Bokhonov, B. B., Bulina, N. V., Zarko, V. E.

“…Single-phase aluminum diboride was obtained by thermal explosion of an aluminum–boron mixture mechanically activated in a planetary ball mill. The additional…”
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Self-propagating high-temperature synthesis in mechanically activated mixtures of boron carbide and titanium by Korchagin, M. A., Gavrilov, A. I., Zarko, V. E., Kiskin, A. B., Iordan, Yu. V., Trushlyakov, V. I.

“…Self-propagating high-temperature synthesis in both the modes of both layer-by-layer combustion and dynamic thermal explosion was carried out using preliminary…”
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Kinetic Parameters of Thermal Decomposition of Furazano-1,2,3,4-Tetrazine-1,3-Dioxide and a Binary Solution Based on It by Murav’ev, N. V., Monogarov, K. A., Zarko, V. E., Kalmykov, P. I., Pivkina, A. N.

“…The kinetic parameters of thermal decomposition of furazano-1,2,3,4-tetrazine-1,3-dioxide (FTDO) and the (75/25) FTDO/dinitrazapentane (DNP) system were…”
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Combustion Study of Gas-Generating Compositions with Carbon Powder Additives by Tursynbek, S., Zarko, V. E., Glotov, O. G., Kiskin, A. B., Korchagin, M. A., Mansurov, Z. A., Surodin, G. S., Umbetkaliev, K. A.

“…In blasting in dense urban areas and piece stone mining, the issue of organizing gentle destruction modes arises, which requires the use of pyrotechnic…”
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Solid propellant combustion in a high-velocity cross-flow of gases (review) by Arkhipov, V. A., Zarko, V. E., Zharova, I. K., Zhukov, A. S., Kozlov, E. A., Aksenenko, D. D., Kurbatov, A. V.

“…Combustion of solid propellants in rocket propulsion systems usually occurs in an intense cross-flow of combustion products (solid rocket motor), gaseous…”
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Laboratory method for measurement of the specific impulse of solid propellants by Arkhipov, V. A., Kiskin, A. B., Zarko, V. E., Korotkikh, A. G.

“…A new laboratory express-method of determining the specific impulse of solid propellants based on the measurement of the reactive force of gasification…”
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New microwave method for measuring unsteady mass gasification rate of condensed systems by Perov, V. V., Zarko, V. E., Zhukov, A. S.

“…This paper presents information on the development of a new contactless method for measuring the unsteady mass gasification rate based on dynamic recording of…”
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Synthesis of Nanocrystalline Magnesium and Aluminum Diborides by M. A. Korchagin, V. E. Zarko, N. V. Bulina

“…For obtaining MgB2 and AlB2 with nanometer size of coherent scattering area the technique based on the preliminary mechanical activation (MA) of initial…”
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Combustion of model compositions based on furazanotetrazine dioxide and dinitrodiazapentane. I. Binary systems by Simonenko, V. N., Kalmykov, P. I., Kiskin, A. B., Glotov, O. G., Zarko, V. E., Sidorov, K. A., Pevchenko, B. V., Nikitin, R. G.

“…The combustion behavior of high-energy systems based on furazano[3,4-e]tetrazine-4,6-dioxide and 2,4-dinitro-2,4-diazapentane with metal and energetic…”
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Calculation of the response of a gasifying energetic material exposed to monochromatic radiation by Gusachenko, L. K., Zarko, V. E., Ivaniya, S. P., Rychkov, A. D.

“…It is shown that the steady-state gasification of a homogeneous energetic material with exothermic subsurface reactions has stability boundaries for small and…”
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