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Publications in Math-Net.Ru |
Citations |
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2023 |
1. |
S. A. Kolesnik, E. M. Stifeev, “Numerical simulation of inverse retrospective problems for a nonlinear heat equation”, Matem. Mod., 35:6 (2023), 109–122 ; Math. Models Comput. Simul., 15:6 (2023), 1123–1131 |
5
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2. |
V. F. Formalev, B. A. Garibyan, S. A. Kolesnik, “Simulation of heat and mass transfer on blunt bodies under aerodynamic heating of high-speed aircraft”, TVT, 61:3 (2023), 398–404 ; High Temperature, 61:3 (2023), 365–371 |
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2022 |
3. |
V. F. Formalev, S. A. Kolesnik, “Wave heat transfer in heat-shielding materials with an exponential-like nonlinear dependence of thermal conductivity on temperature”, TVT, 60:5 (2022), 797–800 ; High Temperature, 60:5 (2022), 731–734 |
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2021 |
4. |
V. F. Formalev, S. A. Kolesnik, E. L. Kuznetsova, “Heat and mass transfer on the side surfaces of blunt nose parts of hypersonic aircraft”, TVT, 59:5 (2021), 797–800 ; High Temperature, 60:1, Suppl. 2 (2022), S288–S291 |
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5. |
V. F. Formalev, R. A. Degtyarenko, B. A. Garibyan, S. A. Kolesnik, “Modeling heat and mass transfer during periodical spraying of a high-temperature heat-resistant coating”, TVT, 59:4 (2021), 566–570 ; High Temperature, 60:1, Suppl. 1 (2022), S76–S80 |
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2020 |
6. |
V. F. Formalev, N. A. Bulychev, E. L. Kuznetsova, S. A. Kolesnik, “The thermal state of a packet of cooled microrocket gas-dynamic lasers”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 46:5 (2020), 44–47 ; Tech. Phys. Lett., 46:3 (2020), 245–248 |
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2019 |
7. |
V. F. Formalev, S. A. Kolesnik, “On thermal solitons with wave heat transfer in restricted areas”, TVT, 57:4 (2019), 543–547 ; High Temperature, 57:4 (2019), 498–502 |
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8. |
V. F. Formalev, S. A. Kolesnik, E. L. Kuznetsova, “Effect of components of the heat conductivity tensor of heat-protection material on the value of heat fluxes from the gasdynamic boundary layer”, TVT, 57:1 (2019), 66–71 ; High Temperature, 57:1 (2019), 58–62 |
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2018 |
9. |
V. F. Formalev, S. A. Kolesnik, E. L. Kuznetsova, “Wave heat transfer in the orthotropic half-space under the action of a nonstationary point source of thermal energy”, TVT, 56:5 (2018), 756–760 ; High Temperature, 56:5 (2018), 727–731 |
23
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10. |
V. F. Formalev, S. A. Kolesnik, E. L. Kuznetsova, “On the wave heat transfer at times comparable with the relaxation time upon intensive convective-conductive heating”, TVT, 56:3 (2018), 412–416 ; High Temperature, 56:3 (2018), 393–397 |
23
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2017 |
11. |
V. F. Formalev, S. A. Kolesnik, E. L. Kuznetsova, “Time-dependent heat transfer in a plate with anisotropy of general form under the action of pulsed heat sources”, TVT, 55:5 (2017), 778–783 ; High Temperature, 55:5 (2017), 761–766 |
19
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12. |
V. F. Formalev, S. A. Kolesnik, “On inverse boundary heat-conduction problems for recovery of heat fluxes to anisotropic bodies with nonlinear heat-transfer characteristics”, TVT, 55:4 (2017), 564–569 ; High Temperature, 55:4 (2017), 549–554 |
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13. |
V. F. Formalev, S. A. Kolesnik, I. A. Selin, E. L. Kuznetsova, “Optimal way for choosing parameters of spacecraft’s screen-vacuum heat insulation”, TVT, 55:1 (2017), 108–114 ; High Temperature, 55:1 (2017), 101–106 |
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2016 |
14. |
V. F. Formalev, S. A. Kolesnik, E. L. Kuznetsova, “Nonstationary heat transfer in anisotropic half-space under the conditions of heat exchange with the environment having a specified temperature”, TVT, 54:6 (2016), 876–882 ; High Temperature, 54:6 (2016), 824–830 |
24
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15. |
V. F. Formalev, S. A. Kolesnik, E. L. Kuznetsova, L. N. Rabinskii, “Heat and mass transfer in thermal protection composite materials upon high temperature loading”, TVT, 54:3 (2016), 415–422 ; High Temperature, 54:3 (2016), 390–396 |
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2015 |
16. |
V. F. Formalev, S. A. Kolesnik, E. L. Kuznetsova, “Modeling conjugate heat transfer in packets of small-size planar gas-dynamic cooled nozzles”, TVT, 53:5 (2015), 735–740 ; High Temperature, 53:5 (2015), 697–702 |
9
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17. |
S. A. Kolesnik, V. F. Formalev, E. L. Kuznetsova, “The inverse boundary thermal conductivity problem of recovery of heat fluxes to the boundries of anisotropic bodies”, TVT, 53:1 (2015), 72–77 ; High Temperature, 53:1 (2015), 68–72 |
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2014 |
18. |
S. A. Kolesnik, “A method for identification of nonlinear components of heat transer tensor for anisotropic materials”, Matem. Mod., 26:2 (2014), 119–132 ; Math. Models Comput. Simul., 6:5 (2014), 480–489 |
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2013 |
19. |
V. F. Formalev, S. A. Kolesnik, “A methodology for solving inverse coefficient problems of determining nonlinear thermophysical characteristics of anisotropic bodies”, TVT, 51:6 (2013), 875–883 ; High Temperature, 51:6 (2013), 795–803 |
21
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2009 |
20. |
V. F. Formalev, S. A. Kolesnik, E. L. Kuznetsova, “The effect of longitudinal nonisothermality on conjugate heat transfer between wall gasdynamic flows and blunt anisotropic bodies”, TVT, 47:2 (2009), 247–253 ; High Temperature, 47:2 (2009), 228–234 |
24
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2007 |
21. |
V. F. Formalev, S. A. Kolesnik, “Conjugate heat transfer between wall gasdynamic flows and anisotropic bodies”, TVT, 45:1 (2007), 85–93 ; High Temperature, 45:1 (2007), 76–84 |
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2006 |
22. |
V. F. Formalev, S. A. Kolesnik, A. A. Chipashvili, “An analytical investigation of heat and mass transfer under conditions of film cooling of bodies”, TVT, 44:1 (2006), 107–112 ; High Temperature, 44:1 (2006), 108–114 |
9
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2004 |
23. |
V. F. Formalev, S. A. Kolesnik, A. A. Chipashvili, “Chipashvili. Numeric simulation of heat transfer in anisotropic bodies with discontinuous parameters”, Matem. Mod., 16:5 (2004), 94–102 |
2
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2003 |
24. |
V. F. Formalev, S. A. Kolesnik, “Analytical simulation of heat condition of anisotropic plate with heat exchange at free boundaries”, Matem. Mod., 15:6 (2003), 107–110 |
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25. |
V. F. Formalev, S. A. Kolesnik, S. V. Mikanev, “Simulation of the thermal state of composite materials”, TVT, 41:6 (2003), 935–941 ; High Temperature, 41:6 (2003), 832–838 |
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2002 |
26. |
V. F. Formalev, S. A. Kolesnik, “An Analytical Study into Conjugate Heat Transfer on the Boundaries of Anisotropic Bodies”, TVT, 40:6 (2002), 993–999 ; High Temperature, 40:6 (2002), 926–932 |
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2001 |
27. |
V. F. Formalev, S. A. Kolesnik, “Analytic solution of second initial boundary problem of anisotropic heat conduction”, Matem. Mod., 13:7 (2001), 21–25 |
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Organisations |
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