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Kashevarov, Aleksei Vasil'evich
Statistics Math-Net.Ru
Total publications: 34
Scientific articles: 32

Number of views:
This page:289
Abstract pages:5725
Full texts:3103
References:306
Associate professor
Candidate of physico-mathematical sciences
E-mail:

https://www.mathnet.ru/eng/person52615
List of publications on Google Scholar
List of publications on ZentralBlatt

Publications in Math-Net.Ru Citations
2020
1. A. V. Kashevarov, A. L. Stasenko, “Discrete-drop mode of ice accretion on a cylinder in transverse supercooled flow”, Zhurnal Tekhnicheskoi Fiziki, 90:1 (2020),  46–52  mathnet  elib; Tech. Phys., 65:1 (2020), 41–47 2
2019
2. E. S. Grinats, V. Zhbanov, A. V. Kashevarov, A. B. Miller, Yu. F. Potapov, A. L. Stasenko, “Droplet dynamics on a body surface in a gas flow”, TVT, 57:2 (2019),  246–252  mathnet  elib; High Temperature, 57:2 (2019), 222–227  isi  scopus 8
2018
3. A. V. Kashevarov, V. S. Levchenko, A. B. Miller, Yu. F. Potapov, A. L. Stasenko, “On the hydrothermodynamics of the icing of a wing profile in the air-crystalline flow”, Zhurnal Tekhnicheskoi Fiziki, 88:6 (2018),  808–814  mathnet  elib; Tech. Phys., 63:6 (2018), 782–788 4
4. A. V. Kashevarov, A. L. Stasenko, “Modeling of ice growth on the airfoil surface in an air flow containing ice particles”, Prikl. Mekh. Tekh. Fiz., 59:4 (2018),  80–88  mathnet  elib; J. Appl. Mech. Tech. Phys., 59:4 (2018), 645–652 4
2017
5. A. V. Kashevarov, A. L. Stasenko, “Hydro-thermodynamics of a liquid film with crystals on the body surface in an air flow containing ice particles”, Prikl. Mekh. Tekh. Fiz., 58:2 (2017),  103–114  mathnet  elib; J. Appl. Mech. Tech. Phys., 58:2 (2017), 275–284 6
2013
6. A. V. Kashevarov, A. L. Stasenko, “Model analysis of the stresses in the interior of an ice slab upon the body moving in electrically charged supercooled clouds”, Matem. Mod., 25:2 (2013),  86–96  mathnet
2012
7. A. V. Kashevarov, “Characterization of a spherical probe in gas at rest upon ionization of alkali metals: The nonisothermal case”, TVT, 50:5 (2012),  700–704  mathnet  elib; High Temperature, 50:5 (2012), 653–657  isi  elib  scopus
2011
8. A. V. Kashevarov, “Mathieu functions and coulomb spheroidal functions in the electrostatic probe theory”, Zh. Vychisl. Mat. Mat. Fiz., 51:12 (2011),  2269–2278  mathnet  mathscinet; Comput. Math. Math. Phys., 51:12 (2011), 2137–2145  isi  scopus
2010
9. A. V. Kashevarov, A. L. Stasenko, “Temperature and stress field modeling in accreted ice on the cylinder in a supercooled gas-drop flow”, Matem. Mod., 22:10 (2010),  119–126  mathnet 2
10. A. V. Kashevarov, A. L. Stasenko, “Forced crystallization of drops in front of a body, moving in a supercooled cloud”, Matem. Mod., 22:2 (2010),  139–147  mathnet  zmath; Math. Models Comput. Simul., 2:5 (2010), 614–620  scopus 6
11. A. V. Kashevarov, “Characteristic of a spherical probe in a stationary gas during ionization of alkaline metals”, Prikl. Mekh. Tekh. Fiz., 51:5 (2010),  17–24  mathnet  elib; J. Appl. Mech. Tech. Phys., 51:5 (2010), 333–339 1
12. A. V. Kashevarov, “The saturation current to a double spherical probe in stationary collisional plasma”, TVT, 48:5 (2010),  788–789  mathnet; High Temperature, 48:5 (2010), 750–752  isi  scopus 1
2008
13. A. V. Kashevarov, “The charge and potential of dust particle in plasma under conditions of diffusion charging”, TVT, 46:5 (2008),  657–663  mathnet  elib; High Temperature, 46:5 (2008), 597–603  isi  elib  scopus
2002
14. A. V. Kashevarov, “Probe Diagnostics of Dusty Plasma”, TVT, 40:5 (2002),  702–705  mathnet  elib; High Temperature, 40:5 (2002), 648–651  isi  scopus
2001
15. A. V. Kashevarov, “The characteristic of a probe in moving collisional plasma for the flow stagnation point”, TVT, 39:3 (2001),  381–386  mathnet; High Temperature, 39:3 (2001), 355–360 1
2000
16. A. V. Kashevarov, “Heat transfer under conditions of plane potential flow past obstacles”, TVT, 38:5 (2000),  775–779  mathnet; High Temperature, 38:5 (2000), 748–752
17. A. V. Kashevarov, “A problem of nonstationary theory of electric probe in collision plasma: Analytical solution”, TVT, 38:1 (2000),  147–149  mathnet; High Temperature, 38:1 (2000), 141–143  scopus
1999
18. A. V. Kashevarov, “Electric-probe diagnostics of two-temperature collision plasma”, TVT, 37:1 (1999),  150–152  mathnet; High Temperature, 37:1 (1999), 144–146  isi
1998
19. A. V. Kashevarov, “The use of electric probes for diagnostics of seeded flame plasma”, TVT, 36:5 (1998),  700–705  mathnet; High Temperature, 36:5 (1998), 674–680  isi
20. A. V. Kashevarov, “Heat transfer from a cylinder and a plate to a liquid with a low Prandtl number”, TVT, 36:2 (1998),  260–266  mathnet; High Temperature, 36:2 (1998), 244–250  isi
21. A. V. Kashevarov, “The second Painlevé equation in the electrostatic-probe theory: Numerical solutions”, Zh. Vychisl. Mat. Mat. Fiz., 38:6 (1998),  992–1000  mathnet  mathscinet  zmath; Comput. Math. Math. Phys., 38:6 (1998), 950–958 6
1996
22. A. V. Kashevarov, “Characterization of a cooled cylindrical probe in a slowly-moving plasma at large potentials”, TVT, 34:4 (1996),  519–524  mathnet; High Temperature, 34:4 (1996), 513–518  isi 1
1995
23. A. V. Kashevarov, “The saturation current density at the critical point of an electric probe”, TVT, 33:1 (1995),  140–144  mathnet; High Temperature, 33:1 (1995), 135–138  isi 1
1994
24. Z. M. Egorova, A. V. Kashevarov, “Cooled cylindrical Langmuir probe in a slowly moving plasma”, Prikl. Mekh. Tekh. Fiz., 35:4 (1994),  3–12  mathnet; J. Appl. Mech. Tech. Phys., 35:4 (1994), 487–495
25. A. V. Kashevarov, “Volt-ampere characteristics of a cylindrical Langmuir probe in a slowly moving plasma form high probe potentials”, TVT, 32:2 (1994),  173–176  mathnet; High Temperature, 32:2 (1994), 162–165  isi 1
26. A. V. Kashevarov, “Effect of recombination kinetics on the saturation current of a Langmuir probe in a seeded plasma flame”, TVT, 32:1 (1994),  12–15  mathnet; High Temperature, 32:1 (1994), 11–14  isi 3
1993
27. Z. M. Egorova, A. V. Kashevarov, “Voltage-current characteristics of a cylindrical Langmuir probe in a slowly moving plasma”, Prikl. Mekh. Tekh. Fiz., 34:2 (1993),  3–10  mathnet; J. Appl. Mech. Tech. Phys., 34:2 (1993), 155–160 1
28. Z. M. Egorova, A. V. Kashevarov, N. S. Tskhai, “Determination of charged particle concentration in the plasma of barium-seeded flame”, TVT, 31:2 (1993),  190–193  mathnet; High Temperature, 31:2 (1993), 158–160
1992
29. A. V. Kashevarov, “О зондовых измерениях в плазме пламени”, TVT, 30:6 (1992),  1220–1223  mathnet 4
30. Z. M. Egorova, A. V. Kashevarov, N. S. Tskhai, “Ion saturation current to electric probes in flame plasmas with an alkali additive”, TVT, 30:3 (1992),  448–456  mathnet; High Temperature, 30:3 (1992), 351–358  isi 3
1990
31. Z. M. Egorova, A. V. Kashevarov, N. S. Tskhai, “Ion current saturation on electric probes in plasma flows at low Reynolds numbers”, Prikl. Mekh. Tekh. Fiz., 31:1 (1990),  159–163  mathnet; J. Appl. Mech. Tech. Phys., 31:1 (1990), 146–151 5
1988
32. Z. M. Egorova, A. V. Kashevarov, E. M. Fomina, N. S. Tskhai, “Measurement of the charged-particle density in a flame plasma with a cylindrical Langmuir probe”, TVT, 26:3 (1988),  577–581  mathnet; High Temperature, 26:3 (1988), 434–438  isi 5
2023
33. A. Kashevarov, A. Stasenko, “Капля, отвердевающая в поле центробежных сил”, Kvant, 2023, no. 3,  43–44  mathnet
2017
34. A. V. Kashevarov, A. L. Stasenko, “Полет в кристаллическом облаке”, Kvant, 2017, no. 3,  30–32  mathnet

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