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Publications in Math-Net.Ru |
Citations |
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2022 |
1. |
E. V. Gurentsov, P. S. Kuleshov, E. Yu. Mikheyeva, “On the anomalous behavior of the optical density of iron nanoparticles under heating by a shock wave”, TVT, 60:2 (2022), 213–217 ; High Temperature, 60:2 (2022), 187–191 |
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2020 |
2. |
P. S. Kuleshov, V. D. Kobtsev, “Distribution of aluminum clusters and their ignition in air during dispersion of aluminum nanoparticles in a shock wave”, Fizika Goreniya i Vzryva, 56:5 (2020), 80–90 ; Combustion, Explosion and Shock Waves, 56:5 (2020), 566–575 |
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3. |
A. M. Savel'ev, P. S. Kuleshov, B. I. Lukhovitskii, A. V. Pelevkin, V. A. Savel'eva, A. S. Sharipov, “On the kinetic mechanism of ignition of diborane mixturesvwith air”, Fizika Goreniya i Vzryva, 56:3 (2020), 3–22 ; Combustion, Explosion and Shock Waves, 56:3 (2020), 249–266 |
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2011 |
4. |
N. S. Titova, P. S. Kuleshov, A. M. Starik, “Kinetic mechanism of propane ignition and combustion in air”, Fizika Goreniya i Vzryva, 47:3 (2011), 3–19 ; Combustion, Explosion and Shock Waves, 47:3 (2011), 249–264 |
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2009 |
5. |
P. S. Kuleshov, Yu. V. Manoshkin, “Electrically controlled generator of micron and submicron water aerosol”, TVT, 47:6 (2009), 937–945 ; High Temperature, 47:6 (2009), 902–911 |
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6. |
P. S. Kuleshov, Yu. V. Manoshkin, “The effect of electric field on the formation and fragmentation of condensate film on the walls of a capillary in a flow of steam”, TVT, 47:1 (2009), 108–116 ; High Temperature, 47:1 (2009), 102–110 |
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