Works matching DE "ACOUSTIC phenomena in nature"
Results: 360
Measurement of Kinematic and Thermal Characteristics of High-Speed Gas-Dynamic Processes by Means of Microwave Sounding.
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- Combustion, Explosion, & Shock Waves, 2018, v. 54, n. 5, p. 614, doi. 10.1134/S0010508218050155
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Shock Compressibility of Mixtures of Micro- and Nano-Sized Nickel and Aluminum Powders.
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- Combustion, Explosion, & Shock Waves, 2018, v. 54, n. 5, p. 552, doi. 10.1134/S0010508218050064
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Investigation of Gas Detonation in Over-Rich Mixtures of Hydrocarbons with Oxygen.
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- Combustion, Explosion, & Shock Waves, 2018, v. 54, n. 2, p. 207, doi. 10.1134/S0010508218020107
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Detonation burning of anthracite and lignite particles in a flow-type radial combustor.
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- Combustion, Explosion, & Shock Waves, 2016, v. 52, n. 6, p. 703, doi. 10.1134/S0010508216060101
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Combustion and detonation of propane-air compositions in large-scale experiments.
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- Combustion, Explosion, & Shock Waves, 2016, v. 52, n. 5, p. 524, doi. 10.1134/S0010508216050038
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Initiation of PETN detonation by an impactor and a high-enthalpy gas flow.
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- Combustion, Explosion, & Shock Waves, 2016, v. 52, n. 1, p. 96, doi. 10.1134/S0010508216010135
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Detonation propagation in thin explosive layers with inert partitions.
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- Combustion, Explosion, & Shock Waves, 2016, v. 52, n. 1, p. 102, doi. 10.1134/S0010508216010147
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On the structure of self-similar detonation waves in TNT charges.
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- Combustion, Explosion, & Shock Waves, 2015, v. 51, n. 1, p. 72, doi. 10.1134/S0010508215010074
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Effect of initial air pressure on the detonation activity of an explosive aerosuspension.
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- Combustion, Explosion, & Shock Waves, 2014, v. 50, n. 4, p. 429, doi. 10.1134/S001050821404011X
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Theoretical studies on energetic properties of s-triazine substituted aminofurazan and aminofuroxan derivatives-high performance energetic material systems.
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- Combustion, Explosion, & Shock Waves, 2014, v. 50, n. 4, p. 441, doi. 10.1134/S0010508214040121
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Shock compression of an emulsion matrix at pressures up to 37 GPa.
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- Combustion, Explosion, & Shock Waves, 2014, v. 50, n. 4, p. 470, doi. 10.1134/S0010508214040169
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On the presence of states with a negative Grüneisen parameter in overdriven explosion products.
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- Combustion, Explosion, & Shock Waves, 2014, v. 50, n. 4, p. 463, doi. 10.1134/S0010508214040157
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Study on the application of emulsion explosives in synthesizing nanostructured ceria.
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- Combustion, Explosion, & Shock Waves, 2014, v. 50, n. 4, p. 477, doi. 10.1134/S0010508214040170
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Modeling of detonation wave propagation through a cloud of particles in a two-velocity two-temperature formulation.
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- Combustion, Explosion, & Shock Waves, 2013, v. 49, n. 2, p. 178, doi. 10.1134/S0010508213020081
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Detonation transmission through high-modulus dispersed media.
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- Combustion, Explosion, & Shock Waves, 2012, v. 48, n. 6, p. 709, doi. 10.1134/S0010508212060081
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Initiation of an explosion of a single bubble and bubble detonation.
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- Combustion, Explosion, & Shock Waves, 2012, v. 48, n. 5, p. 650, doi. 10.1134/S0010508212050176
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Turbulent deflagrations, autoignitions, and detonations.
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- Combustion, Explosion, & Shock Waves, 2012, v. 48, n. 5, p. 526, doi. 10.1134/S0010508212050048
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Mathematical model of detonation combustion of kerosene vapor in an oxidizer.
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- Combustion, Explosion, & Shock Waves, 2012, v. 48, n. 1, p. 41, doi. 10.1134/S0010508212010066
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Initiation of a passive explosive charge through a target with gaps.
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- Combustion, Explosion, & Shock Waves, 2012, v. 48, n. 1, p. 119, doi. 10.1134/S0010508212010157
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Detonation characteristics of diluted liquid explosives: Mixtures of tetranitromethane with methanol.
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- Combustion, Explosion, & Shock Waves, 2012, v. 48, n. 3, p. 356, doi. 10.1134/S0010508212030148
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Detonation properties of diluted liquid explosives: A mixture of nitromethane with nitrobenzene.
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- Combustion, Explosion, & Shock Waves, 2012, v. 48, n. 1, p. 106, doi. 10.1134/S0010508212010133
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Studies on jet formation and penetration for a double-layer shaped charge.
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- Combustion, Explosion, & Shock Waves, 2011, v. 47, n. 2, p. 241, doi. 10.1134/S0010508211020134
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Continuous detonation in the regime of self-oscillatory ejection of the oxidizer. 2. Air as an oxidizer.
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- Combustion, Explosion, & Shock Waves, 2011, v. 47, n. 2, p. 217, doi. 10.1134/S0010508211020110
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Influence of the initial gas pressure on the detonation limits and parameters of low-density secondary explosives in an inert porous medium.
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- Combustion, Explosion, & Shock Waves, 2009, v. 45, n. 3, p. 331, doi. 10.1007/s10573-009-0044-2
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Heat fluxes to combustor walls during continuous spin detonation of fuel-air mixtures.
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- Combustion, Explosion, & Shock Waves, 2009, v. 45, n. 1, p. 70, doi. 10.1007/s10573-009-0010-z
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Comparative analysis of physical mechanisms of detonation initiation in HMX and in a low-sensitive explosive (TATB).
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- Combustion, Explosion, & Shock Waves, 2009, v. 45, n. 1, p. 78, doi. 10.1007/s10573-009-0011-y
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Transitional regimes of wave propagation in metastable systems.
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- Combustion, Explosion, & Shock Waves, 2008, v. 44, n. 5, p. 517, doi. 10.1007/s10573-008-0080-3
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Some numerical issues on simulation of detonation cell structures.
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- Combustion, Explosion, & Shock Waves, 2008, v. 44, n. 5, p. 560, doi. 10.1007/s10573-008-0086-x
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Formation of carbon clusters in deflagration and detonation waves in gas mixtures.
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- Combustion, Explosion, & Shock Waves, 2008, v. 44, n. 3, p. 317, doi. 10.1007/s10573-008-0040-y
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Research on the thermal ionization model of detonation products by quantum mechanics methods.
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- Combustion, Explosion, & Shock Waves, 2008, v. 44, n. 1, p. 101, doi. 10.1007/s10573-008-0014-0
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Initiation of detonation in flows of fuel-air mixtures.
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- Combustion, Explosion, & Shock Waves, 2007, v. 43, n. 3, p. 345, doi. 10.1007/s10573-007-0048-8
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Noise and vibrations in a combustor with continuous spin detonation combustion of the fuel.
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- Combustion, Explosion, & Shock Waves, 2006, v. 42, n. 5, p. 582, doi. 10.1007/s10573-006-0090-y
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Limits of gaseous detonation spraying.
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- Combustion, Explosion, & Shock Waves, 2006, v. 42, n. 5, p. 594, doi. 10.1007/s10573-006-0091-x
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Physical model for shock-wave initiation of detonation of plastic-bounded TATB-based explosive.
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- Combustion, Explosion, & Shock Waves, 2006, v. 42, n. 5, p. 598, doi. 10.1007/s10573-006-0092-9
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Experimental investigation of discrete multilayered vessels under internal explosion.
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- Combustion, Explosion, & Shock Waves, 2006, v. 42, n. 5, p. 617, doi. 10.1007/s10573-006-0095-6
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Effectiveness of Phlegmatizers in Explosive Compositions under Mechanical Loading.
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- Combustion, Explosion, & Shock Waves, 2006, v. 42, n. 1, p. 88, doi. 10.1007/s10573-006-0011-0
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Interaction of Aluminum with Detonation Products.
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- Combustion, Explosion, & Shock Waves, 2006, v. 42, n. 1, p. 107, doi. 10.1007/s10573-006-0013-y
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On the Hydrodynamic Thickness of Cellular Detonations.
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- Combustion, Explosion, & Shock Waves, 2005, v. 41, n. 6, p. 745, doi. 10.1007/s10573-005-0084-1
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Shock Initiation of Energetic Materials at Different Initial Temperatures (Review).
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- Combustion, Explosion, & Shock Waves, 2005, v. 41, n. 6, p. 766, doi. 10.1007/s10573-005-0085-0
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Effect of Channel Geometry and Mixture Temperature on Detonation‐to‐Deflagration Transition in Gases.
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- Combustion, Explosion, & Shock Waves, 2004, v. 40, n. 2, p. 186, doi. 10.1023/B:CESW.0000020141.67981.5f
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Gas Detonation and its Application in Engineering and Technologies (Review).
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- Combustion, Explosion, & Shock Waves, 2003, v. 39, n. 4, p. 382, doi. 10.1023/A:1024726619703
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Continuous Detonation of a Subsonic Flow of a Propellant.
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- Combustion, Explosion, & Shock Waves, 2003, v. 39, n. 3, p. 323, doi. 10.1023/A:1023800521344
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SPH method in numerical calculus of detonation parameters.
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- Journal of Engineering Sciences & Innovation (JESI), 2019, v. 4, n. 1, p. 1
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Bermuda Shadow.
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- Atmosphere - Ocean (Canadian Meteorological & Oceanographic Society), 1991, v. 29, n. 2, p. 183, doi. 10.1080/07055900.1991.9649402
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Le musée Paul Verlaine à Juniville : À la table de Sagesse.
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- Histoires Littèraires, 2019, v. 20, n. 79, p. 121
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The influence of synoptic situations on the occurrence of days with thunderstorms during a year in the territory of Poland.
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- International Journal of Climatology, 2006, v. 26, n. 13, p. 1803, doi. 10.1002/joc.1348
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Effects of aluminum on the interaction of detonation diamond nanocrystals during high-temperature annealing.
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- Technical Physics Letters, 2009, v. 35, n. 5, p. 473, doi. 10.1134/S1063785009050265
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On the kinetics of chemical reactions under detonation conditions.
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- Technical Physics Letters, 2009, v. 35, n. 2, p. 127, doi. 10.1134/S1063785009020096
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Self-organization processes and sedimentation stability in detonation nanodiamond suspensions.
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- Technical Physics Letters, 2007, v. 33, n. 10, p. 865, doi. 10.1134/S1063785007100173
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Nonlinear phenomena in nonideal coulomb systems.
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- Technical Physics Letters, 2007, v. 33, n. 1, p. 65, doi. 10.1134/S106378500701018X
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