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Formalev, Vladimir Fedorovich
Statistics Math-Net.Ru
Total publications: 43
Scientific articles: 43

Number of views:
This page:812
Abstract pages:8981
Full texts:4069
References:852
Professor
Doctor of physico-mathematical sciences

https://www.mathnet.ru/eng/person30958
List of publications on Google Scholar
List of publications on ZentralBlatt
https://mathscinet.ams.org/mathscinet/MRAuthorID/284529

Publications in Math-Net.Ru Citations
2023
1. 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  mathnet; High Temperature, 61:3 (2023), 365–371
2022
2. 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  mathnet  elib; High Temperature, 60:5 (2022), 731–734 3
2021
3. 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  mathnet  elib; High Temperature, 60:1, Suppl. 2 (2022), S288–S291 15
4. 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  mathnet  elib; High Temperature, 60:1, Suppl. 1 (2022), S76–S80 7
2020
5. 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  mathnet  elib; Tech. Phys. Lett., 46:3 (2020), 245–248 6
6. V. F. Formalev, “Modeling of heat and mass transfer in heat-shielding composite materials based on the universal law of binder decomposition”, TVT, 58:3 (2020),  412–418  mathnet  elib; High Temperature, 58:3 (2020), 386–392  isi  scopus 6
7. V. F. Formalev, “On the universal law of the decomposition of thermal-protective binder composite materials at high temperatures”, TVT, 58:1 (2020),  91–96  mathnet  elib; High Temperature, 58:1 (2020), 92–96  isi  scopus 3
2019
8. V. F. Formalev, S. A. Kolesnik, “On thermal solitons with wave heat transfer in restricted areas”, TVT, 57:4 (2019),  543–547  mathnet  elib; High Temperature, 57:4 (2019), 498–502  isi  scopus 32
9. 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  mathnet  elib; High Temperature, 57:1 (2019), 58–62  isi  scopus 25
2018
10. 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  mathnet  elib; High Temperature, 56:5 (2018), 727–731  isi  scopus 23
11. 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  mathnet  elib; High Temperature, 56:3 (2018), 393–397  isi  elib  scopus 23
2017
12. 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  mathnet  elib; High Temperature, 55:5 (2017), 761–766  isi  scopus 19
13. 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  mathnet  elib; High Temperature, 55:4 (2017), 549–554  isi  scopus 25
14. 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  mathnet  elib; High Temperature, 55:1 (2017), 101–106  isi  scopus 13
2016
15. 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  mathnet  elib; High Temperature, 54:6 (2016), 824–830  isi  scopus 24
16. 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  mathnet  elib; High Temperature, 54:3 (2016), 390–396  isi  scopus 28
2015
17. 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  mathnet  elib; High Temperature, 53:5 (2015), 697–702  isi  elib  scopus 9
18. V. F. Formalev, E. L. Kuznetsova, L. N. Rabinskii, “Localization of thermal disturbances in nonlinear anisotropic media with absorption”, TVT, 53:4 (2015),  579–584  mathnet  elib; High Temperature, 53:4 (2015), 548–553  isi  elib  scopus 17
19. 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  mathnet  elib; High Temperature, 53:1 (2015), 68–72  isi  elib  scopus 27
2014
20. V. F. Formalev, L. N. Rabinskii, “Wave heat transfer in anisotropic space with nonlinear characteristics”, TVT, 52:5 (2014),  704–709  mathnet  elib; High Temperature, 52:5 (2014), 675–680  isi  elib  scopus 8
2013
21. 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  mathnet  elib; High Temperature, 51:6 (2013), 795–803  isi  elib  scopus 20
2012
22. V. F. Formalev, “Thermal shock waves in nonlinear solid media”, TVT, 50:6 (2012),  799–803  mathnet  elib; High Temperature, 50:6 (2012), 744–748  isi  elib  scopus 13
2010
23. V. F. Formalyov, I. A. Selin, E. L. Kuznetcova, “Simulation of Heat Waves in An Nonlinear Anisotropic Space”, Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 1(20) (2010),  239–243  mathnet
2009
24. 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  mathnet  elib; High Temperature, 47:2 (2009), 228–234  isi  elib  scopus 24
2007
25. V. F. Formalev, S. A. Kolesnik, “Conjugate heat transfer between wall gasdynamic flows and anisotropic bodies”, TVT, 45:1 (2007),  85–93  mathnet  elib; High Temperature, 45:1 (2007), 76–84  isi  elib  scopus 25
2006
26. V. F. Formalev, G. V. Fedotenkov, E. L. Kuznetsova, “Heat transfer under conditions of phase transitions in bodies with anisotropic properties”, TVT, 44:5 (2006),  756–763  mathnet  elib; High Temperature, 44:5 (2006), 752–759  elib  scopus 4
27. 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  mathnet  elib; High Temperature, 44:1 (2006), 108–114  elib  scopus 10
2004
28. 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  mathnet 2
2003
29. 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  mathnet  zmath 2
30. V. F. Formalev, S. A. Kolesnik, S. V. Mikanev, “Simulation of the thermal state of composite materials”, TVT, 41:6 (2003),  935–941  mathnet; High Temperature, 41:6 (2003), 832–838 5
2002
31. 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  mathnet  elib; High Temperature, 40:6 (2002), 926–932  isi  scopus 4
2001
32. V. F. Formalev, S. A. Kolesnik, “Analytic solution of second initial boundary problem of anisotropic heat conduction”, Matem. Mod., 13:7 (2001),  21–25  mathnet  zmath 2
33. V. F. Formalev, “Heat and mass transfer in anisotropic bodies”, TVT, 39:5 (2001),  810–832  mathnet; High Temperature, 39:5 (2001), 753–774 16
2000
34. V. F. Formalev, “Noniteration method of numerical solution for conjugated problems of boundary layer and anisotropic heat conduction”, Matem. Mod., 12:6 (2000),  35–38  mathnet 2
1999
35. V. F. Formalev, V. A. Golovanov, “A study of conjugate heat transfer between boundary layer and bodies possessing anisotropic properties”, TVT, 37:5 (1999),  772–778  mathnet; High Temperature, 37:5 (1999), 742–748  isi
1998
36. V. F. Formalev, O. A. Tyukin, “Investigation of three-dimensional nonstationary thermal conductivity in anisotropic bodies, based on analytical solution of the problem”, TVT, 36:2 (1998),  239–245  mathnet; High Temperature, 36:2 (1998), 222–229  isi
1997
37. V. F. Formalev, “Simulation of nonlinear nonisothermal filtration under the conditions of film cooling of anisotropic bodies”, TVT, 35:2 (1997),  286–292  mathnet; High Temperature, 35:2 (1997), 283–289  isi 2
1996
38. V. F. Formalev, O. A. Tyukin, “Implicit economizing method for numerical solution of problems containing mixed derivatives”, Matem. Mod., 8:6 (1996),  27–32  mathnet  mathscinet 1
1994
39. V. F. Formalev, O. A. Tyukin, “Temperature field studies on the basis of an analytic solution of the two-dimensional problem of anisotropic thermal conductivity”, TVT, 32:4 (1994),  518–523  mathnet; High Temperature, 32:4 (1994), 483–488  isi 3
1992
40. V. F. Formalev, “Numerical investigation of associated heat exchange under conditions of filtration and film cooling of blunt anisotropic bodies”, TVT, 30:2 (1992),  334–344  mathnet; High Temperature, 30:2 (1992), 266–276  isi 1
1990
41. V. F. Formalev, A. A. Moskalenko, “Analytic solution of a three-dimensional time-dependent heat conduction problem with heat conduction tensor”, Differ. Uravn., 26:7 (1990),  1277–1279  mathnet  zmath
42. V. F. Formalev, “Analysis of two-dimensional temperature fields in anisotropic bodies with allowance for moving boundaries and a high degree of anisotropy”, TVT, 28:4 (1990),  715–721  mathnet; High Temperature, 28:4 (1990), 535–541  isi 1
1988
43. V. F. Formalev, “Two-dimensional nonlinear heat-conduction problems in anisotropic bodies”, TVT, 26:6 (1988),  1122–1127  mathnet; High Temperature, 26:6 (1988), 868–874  isi

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