Andrushchenko Victor Anatol'evich

Publications in Math-Net.Ru

1. On the effect of ballistic parameters of meteoroids on their destruction in the Earth's atmosphere
   
   Matem. Mod., 35:6 (2023),  81–95
2. Numerical study of nonstandard trajectories of celestial bodies invading Earth's atmosphere
   
   TVT, 61:2 (2023),  279–284
3. 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
4. Vortex formation in the frontal zone behind a shock wave of a strong point explosion in an inhomogeneous atmosphere
   
   TVT, 60:4 (2022),  633–636
5. Physical research, numerical and analytical modeling of explosion phenomena. A review
   
   Computer Research and Modeling, 12:3 (2020),  505–546
6. Numerical studies of the structure of perturbed regions formed by powerful explosions at various heights. A review
   
   Computer Research and Modeling, 12:1 (2020),  97–140
7. Modelling the mechanisms of destruction of the surface layer of a meteoroid under the thermal factor
   
   Matem. Mod., 32:12 (2020),  103–113
8. A mechanism for the formation of the surface relief of falling meteor bodies
   
   TVT, 58:1 (2020),  135–140
9. Modeling the physical processes of a powerful nuclear explosion on an asteroid
   
   Computer Research and Modeling, 11:5 (2019),  861–877
10. Simulation of flight and destruction of the Benešov bolid
    
    Computer Research and Modeling, 10:5 (2018),  605–618
11. Mathematical simulation of the fall and fragmentation of the Sikhote-Alin bolide
    
    Matem. Mod., 30:11 (2018),  5–12
12. Comprehensive mathematical analysis of fall of bolides in atmosphere with final multiple explosion
    
    Zh. Vychisl. Mat. Mat. Fiz., 58:8 (2018),  97–112
13. About mechanisms of meteorites destruction and heat transfer to their surfaces
    
    Matem. Mod., 28:2 (2016),  31–39
14. Simulation of the motion and destruction of bolides in the Earth's atmosphere
    
    TVT, 54:3 (2016),  328–335
15. Numerical investigation of interactions of multiple spherical shock waves between themselves and with the underlying surface
    
    Zh. Vychisl. Mat. Mat. Fiz., 56:6 (2016),  1115–1121
16. Modeling of Сhelyabinsk meteorite fall
    
    Computer Research and Modeling, 5:6 (2013),  927–940
17. The Earth attack from space — the chronicle of centure
    
    Computer Research and Modeling, 5:6 (2013),  907–916
18. Numerical solution of the problem of the theory of point explosion in Lagrangian coordinates. Some new results
    
    Matem. Mod., 23:9 (2011),  135–147
19. Solution of problems of aircrafts design using multiple-processor computers
    
    Matem. Mod., 19:5 (2007),  25–38
20. Некоторые особенности процесса деформации порошковых материалов в условиях неоднородного нестационарного температурного поля
    
    Matem. Mod. Kraev. Zadachi, 1 (2007),  16–19
21. The dynamics of three-dimensional vortex formation in the atmosphere, caused by buoyant high-temperature thermals in the wind field: Numerical investigation
    
    TVT, 36:3 (1998),  435–441
22. Combination of air flows initiated in the atmosphere by a group of surface thermals
    
    TVT, 33:3 (1995),  400–403
23. Using highly productive computational systems for solving of three-dimensional problems of convection theory
    
    Matem. Mod., 6:11 (1994),  76–86
24. Circulating and jet flows formed in the atmosphere during the rise of two large-scale thermals
    
    Prikl. Mekh. Tekh. Fiz., 34:1 (1993),  75–83
25. Calculations for problem on four near-ground thermal vortexes interaction on multiprocessor complex EC 1037–EC 2706
    
    Matem. Mod., 4:3 (1992),  40–52
26. Interaction of spherical shock waves with near-surface thermal gas inhomogeneities
    
    Fizika Goreniya i Vzryva, 26:3 (1990),  77–82
27. Self-ignition mechanism for coal
    
    Fizika Goreniya i Vzryva, 26:2 (1990),  23–28
28. Numerkal methods application for estimation shoc-wave interaction with thermal layer
    
    Matem. Mod., 2:1 (1990),  49–55
29. A numerical technique for solving non-stationary spatial problems of the dynamics of elastoplastic media
    
    Zh. Vychisl. Mat. Mat. Fiz., 28:11 (1988),  1711–1718
30. Numerical solution of wave dynamics problems using ES-1055 M vector processor
    
    Zh. Vychisl. Mat. Mat. Fiz., 27:8 (1987),  1203–1211
31. Algorithm for solving three-dimensional problems on non-stationary wave processes in condensed media
    
    Zh. Vychisl. Mat. Mat. Fiz., 26:6 (1986),  906–913