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Publications in Math-Net.Ru |
Citations |
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2023 |
1. |
V. A. Andrushchenko, N. G. Syzranova, “On the effect of ballistic parameters of meteoroids on their destruction in the Earth's atmosphere”, Matem. Mod., 35:6 (2023), 81–95 ; Math. Models Comput. Simul., 15:6 (2023), 1104–1113 |
2. |
N. G. Syzranova, V. A. Andrushchenko, “Numerical study of nonstandard trajectories of celestial bodies invading Earth's atmosphere”, TVT, 61:2 (2023), 279–284 ; High Temperature, 61:2 (2023), 256–261 |
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2022 |
3. |
N. G. Syzranova, V. A. Andrushchenko, “Numerical modeling of physical processes leading to the destruction of meteoroids in the Earth's atmosphere”, Computer Research and Modeling, 14:4 (2022), 835–851 |
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2020 |
4. |
V. A. Andrushchenko, V. A. Goloveshkin, N. G. Syzranova, “Modelling the mechanisms of destruction of the surface layer of a meteoroid under the thermal factor”, Matem. Mod., 32:12 (2020), 103–113 ; Math. Models Comput. Simul., 13:4 (2021), 698–704 |
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5. |
V. A. Andrushchenko, V. A. Goloveshkin, N. G. Syzranova, “A mechanism for the formation of the surface relief of falling meteor bodies”, TVT, 58:1 (2020), 135–140 ; High Temperature, 58:1 (2020), 132–136 |
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2018 |
6. |
V. A. Andrushchenko, F. A. Maximov, N. G. Syzranova, “Simulation of flight and destruction of the Benešov bolid”, Computer Research and Modeling, 10:5 (2018), 605–618 |
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7. |
V. A. Andrushchenko, N. G. Syzranova, “Mathematical simulation of the fall and fragmentation of the Sikhote-Alin bolide”, Matem. Mod., 30:11 (2018), 5–12 ; Math. Models Comput. Simul., 11:3 (2019), 451–456 |
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8. |
V. A. Andrushchenko, V. T. Lukashenko, F. A. Maksimov, I. V. Murashkin, N. G. Syzranova, Yu. D. Shevelev, “Comprehensive mathematical analysis of fall of bolides in atmosphere with final multiple explosion”, Zh. Vychisl. Mat. Mat. Fiz., 58:8 (2018), 97–112 ; Comput. Math. Math. Phys., 58:8 (2018), 1294–1308 |
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2016 |
9. |
V. A. Andrushchenko, N. G. Syzranova, Yu. D. Shevelev, V. A. Goloveshkin, “About mechanisms of meteorites destruction and heat transfer to their surfaces”, Matem. Mod., 28:2 (2016), 31–39 ; Math. Models Comput. Simul., 8:5 (2016), 506–512 |
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10. |
N. G. Syzranova, V. A. Andrushchenko, “Simulation of the motion and destruction of bolides in the Earth's atmosphere”, TVT, 54:3 (2016), 328–335 ; High Temperature, 54:3 (2016), 308–315 |
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2013 |
11. |
V. A. Andrushchenko, N. G. Syzranova, Yu. D. Shevelev, “Modeling of Ñhelyabinsk meteorite fall”, Computer Research and Modeling, 5:6 (2013), 927–940 |
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2010 |
12. |
Yu. D. Shevelev, N. G. Syzranova, E. V. Kustova, E. A. Nagnibeda, “Numerical simulation of hypersonic flows around space vehicles descending in the Martian atmosphere”, Matem. Mod., 22:9 (2010), 23–50 ; Math. Models Comput. Simul., 3:2 (2011), 205–224 |
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2009 |
13. |
Yu. D. Shevelev, N. G. Syzranova, “The effect of multicomponent diffusion on supersonic flow of carbon dioxide past bodies”, TVT, 47:6 (2009), 863–869 ; High Temperature, 47:6 (2009), 829–835 |
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2007 |
14. |
Yu. D. Shevelev, N. G. Syzranova, V. A. Andrushchenko, V. A. Mikhalin, F. A. Maximov, “Solution of problems of aircrafts design using multiple-processor computers”, Matem. Mod., 19:5 (2007), 25–38 |
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2002 |
15. |
Yu. D. Shevelev, V. A. Mikhalin, N. G. Syzranova, “On supersonic viscous flows during jettisoning of launch vehicle stages”, Matem. Mod., 14:7 (2002), 3–14 |
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