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Publications in Math-Net.Ru |
Citations |
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2024 |
1. |
V. N. Zaikovskii, V. P. Kiselev, S. P. Kiselev, O. V. Belai, G. V. Trubacheev, “Vortex structures in supersonic jets exhausting into a submerged space”, Prikl. Mekh. Tekh. Fiz., 65:3 (2024), 56–68 |
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2023 |
2. |
O. V. Belai, S. P. Kiselev, V. P. Kiselev, “Numerical simulation of a nanoparticle collision with a target by the molecular dynamics method under the conditions of cold gas-dynamic spraying”, Prikl. Mekh. Tekh. Fiz., 64:6 (2023), 27–35 ; J. Appl. Mech. Tech. Phys., 64:6 (2024), 964–971 |
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2022 |
3. |
S. P. Kiselev, V. P. Kiselev, E. V. Vorozhtsov, “Smoothed particle hydrodynamics method used for numerical simulation of impact between an aluminum particle and a titanium obstacle”, Prikl. Mekh. Tekh. Fiz., 63:6 (2022), 150–165 ; J. Appl. Mech. Tech. Phys., 63:6 (2022), 1035–1049 |
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2021 |
4. |
S. P. Kiselev, V. P. Kiselev, “Numerical simulation of fracture of titanium and aluminum nanocrystals by the molecular dynamics method”, Fizika Goreniya i Vzryva, 57:4 (2021), 115–129 ; Combustion, Explosion and Shock Waves, 57:4 (2021), 487–500 |
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2020 |
5. |
S. P. Kiselev, V. P. Kiselev, V. N. Zaikovskii, “Investigation of supersonic underexpanded jets exhausting into a slotted submerged space”, Prikl. Mekh. Tekh. Fiz., 61:2 (2020), 81–91 ; J. Appl. Mech. Tech. Phys., 61:2 (2020), 225–234 |
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2018 |
6. |
S. P. Kiselev, N. S. Ryashin, E. A. Maximovskiy, V. P. Kiselev, S. V. Klinkov, V. F. Kosarev, A. A. Filippov, V. S. Shikalov, “Creating a coating from the titanium–aluminum intermetallic compound by the cold spray technology”, Prikl. Mekh. Tekh. Fiz., 59:6 (2018), 190–200 ; J. Appl. Mech. Tech. Phys., 59:6 (2018), 1126–1135 |
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2017 |
7. |
S. P. Kiselev, V. P. Kiselev, V. N. Zaikovskii, “Supersonic gas flows in radial nozzles”, Prikl. Mekh. Tekh. Fiz., 58:6 (2017), 78–90 ; J. Appl. Mech. Tech. Phys., 58:6 (2017), 1021–1032 |
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8. |
S. P. Kiselev, V. P. Kiselev, “Numerical simulation of titanium dissolution in the aluminum melt and synthesis of an intermetallic compound”, Prikl. Mekh. Tekh. Fiz., 58:5 (2017), 158–166 ; J. Appl. Mech. Tech. Phys., 58:5 (2017), 895–903 |
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2016 |
9. |
S. P. Kiselev, V. P. Kiselev, V. N. Zaikovskii, “On the mechanism of self-oscillations of a supersonic radial jet exhausting into an ambient space”, Prikl. Mekh. Tekh. Fiz., 57:2 (2016), 53–63 ; J. Appl. Mech. Tech. Phys., 57:2 (2016), 237–246 |
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2014 |
10. |
S. P. Kiselev, V. P. Kiselev, V. N. Zaikovskii, “Mechanism of self-oscillations in a supersonic jet impact onto an obstacle. 2. Obstacle with no spike”, Prikl. Mekh. Tekh. Fiz., 55:5 (2014), 21–28 ; J. Appl. Mech. Tech. Phys., 55:5 (2014), 742–749 |
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11. |
S. P. Kiselev, V. P. Kiselev, V. N. Zaikovskii, “Mechanism of self-oscillations in a supersonic jet impact onto an obstacle. 1. Obstacle with a spike”, Prikl. Mekh. Tekh. Fiz., 55:4 (2014), 50–59 ; J. Appl. Mech. Tech. Phys., 55:4 (2014), 593–601 |
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2012 |
12. |
S. P. Kiselev, V. P. Kiselev, V. N. Zaikovskii, “Effect of gas flow swirling on coating deposition by the cold gas-dynamic spray method”, Prikl. Mekh. Tekh. Fiz., 53:2 (2012), 72–83 ; J. Appl. Mech. Tech. Phys., 53:2 (2012), 207–217 |
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2010 |
13. |
S. P. Kiselev, V. P. Kiselev, V. I. Mali, “Effect of the metal structure on the loss of stability of a thin plate separating a powder compressed by a shock wave”, Fizika Goreniya i Vzryva, 46:1 (2010), 109–116 ; Combustion, Explosion and Shock Waves, 46:1 (2010), 96–102 |
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2006 |
14. |
S. P. Kiselev, V. P. Kiselev, “Effect of wave formation during shock-wave compaction of powders”, Prikl. Mekh. Tekh. Fiz., 47:1 (2006), 119–130 ; J. Appl. Mech. Tech. Phys., 47:1 (2006), 99–108 |
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2005 |
15. |
V. N. Zaikovskii, S. P. Kiselev, V. P. Kiselev, “Large-scale streamwise vortices in the supersonic part of a permeable nozzle”, Prikl. Mekh. Tekh. Fiz., 46:5 (2005), 68–75 ; J. Appl. Mech. Tech. Phys., 46:5 (2005), 670–676 |
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2001 |
16. |
S. P. Kiselev, V. P. Kiselev, “Lifting of dust particles behind a reflected shock wave sliding above a particle layer”, Prikl. Mekh. Tekh. Fiz., 42:5 (2001), 8–15 ; J. Appl. Mech. Tech. Phys., 42:5 (2001), 741–747 |
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2000 |
17. |
S. P. Kiselev, V. P. Kiselev, “Mechanism of superdeep penetration of particles into a metal target”, Prikl. Mekh. Tekh. Fiz., 41:2 (2000), 37–46 ; J. Appl. Mech. Tech. Phys., 41:2 (2000), 235–244 |
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1998 |
18. |
S. P. Kiselev, V. P. Kiselev, “Criterion of formation of a shock wave reflected from a cloud of particles”, Prikl. Mekh. Tekh. Fiz., 39:3 (1998), 44–51 ; J. Appl. Mech. Tech. Phys., 39:3 (1998), 362–368 |
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1996 |
19. |
V. M. Boiko, V. P. Kiselev, S. P. Kiselev, A. N. Papyrin, S. V. Poplavskii, V. M. Fomin, “Interaction of a shock wave with a cloud of particles”, Fizika Goreniya i Vzryva, 32:2 (1996), 86–99 ; Combustion, Explosion and Shock Waves, 32:2 (1996), 191–203 |
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20. |
V. P. Kiselev, “Effect of the lower surface on a cloud of particles moving behind a shock wave”, Prikl. Mekh. Tekh. Fiz., 37:4 (1996), 40–41 ; J. Appl. Mech. Tech. Phys., 37:4 (1996), 492–493 |
21. |
S. P. Kiselev, V. P. Kiselev, “Interaction of a shock wave with a cloud of particles with disturbed boundaries”, Prikl. Mekh. Tekh. Fiz., 37:4 (1996), 36–39 ; J. Appl. Mech. Tech. Phys., 37:4 (1996), 488–491 |
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1995 |
22. |
V. M. Fomin, V. M. Boiko, V. P. Kiselev, S. P. Kiselev, A. N. Papyrin, S. V. Poplavskii, “On some features of gas flow under the interaction of a shock wave with a cloud of particles”, Dokl. Akad. Nauk, 340:2 (1995), 188–190 |
23. |
S. P. Kiselev, V. P. Kiselev, “Ignition of pulverized coal particles in shock waves”, Prikl. Mekh. Tekh. Fiz., 36:3 (1995), 31–37 ; J. Appl. Mech. Tech. Phys., 36:3 (1995), 347–353 |
24. |
S. P. Kiselev, V. P. Kiselev, “Some features of the flow of gas that occurs as a result of the interaction between a shock-wave and a cloud of particles”, Prikl. Mekh. Tekh. Fiz., 36:2 (1995), 8–18 ; J. Appl. Mech. Tech. Phys., 36:2 (1995), 155–165 |
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1994 |
25. |
S. P. Kiselev, V. P. Kiselev, V. M. Fomin, “Shock wave interaction with the particles cloud”, Dokl. Akad. Nauk, 334:3 (1994), 310–313 |
26. |
V. P. Kiselev, S. P. Kiselev, V. M. Fomin, “Interaction of a shock wave with a cloud of particles of finite dimensions”, Prikl. Mekh. Tekh. Fiz., 35:2 (1994), 26–37 ; J. Appl. Mech. Tech. Phys., 35:2 (1994), 183–192 |
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