Yakimov Anatolii Stepanovich

Publications in Math-Net.Ru

1. Моделирование процесса тепломассообмена в древесинных материалах при взаимодействии их с частицами, нагретыми до высокой температуры
   
   TVT, 63:3 (2025),  390–400
2. Simulation of ignition of composite materials by particles heated to a high temperature
   
   Fizika Goreniya i Vzryva, 60:3 (2024),  143–154
3. Mathematical modeling of heat transfer in composite materials under fire conditions
   
   TVT, 61:1 (2023),  83–90
4. Simulation of thermionic thermal protection in a supersonic air flow around a spherically blunted cone
   
   TVT, 59:3 (2021),  432–442
5. Numerical study of the influence of spherically blunted cone oscillations during a supersonic air flow on the characteristics of the conjugate heat and mass transfer
   
   TVT, 59:1 (2021),  100–108
6. Numerical simulation of active thermionic heat protection in high-entalpy flow around a multilayered shell
   
   TVT, 57:6 (2019),  898–908
7. Numerical analysis of heat transfer characteristics during radiative-convective heating of a spherically blunted cone
   
   TVT, 57:1 (2019),  83–93
8. Numerical study of the effect of rotation on the behavior of the conjugate heat and mass transfer on the surface of a spherically blunted cone exposed to a hypersonic flow at an angle of attack with ablation from the surface
   
   TVT, 56:2 (2018),  253–260
9. Mathematical simulation of the influence of surface roughness and mass loss on thermal protection
   
   TVT, 55:5 (2017),  800–805
10. Mathematical modeling of heat transfer in a heat-shielding material
    
    Prikl. Mekh. Tekh. Fiz., 57:6 (2016),  150–159
11. Calculation of characteristics of heat and mass transfer in a multilayer heat resistant coating
    
    TVT, 54:6 (2016),  904–910
12. Mathematical simulatuion of heat and mass transfer in a heat resistant coating under gas flow fluctuations
    
    TVT, 53:2 (2015),  236–242
13. Some results of mathematical simulation of the process of peat ignition
    
    TVT, 51:6 (2013),  923–930
14. Modeling of heat-mass transfer in porous cooling systems during phase transformations
    
    TVT, 50:5 (2012),  685–691
15. Modeling the process of peat ignition
    
    Vestn. Tomsk. Gos. Univ. Mat. Mekh., 2012, no. 1(17),  91–102
16. Modeling the Heat and Mass Exchange Process in the Systems of Porous Cooling with Gas Flow Pulsations
    
    TVT, 49:6 (2011),  948–952
17. Calculation of the Characteristics of Conjugate Heat–Mass Exchange under Spatial Flow of a Blunt Body with the Use of a Combined Heat Protection System
    
    TVT, 49:1 (2011),  81–91
18. Numerical modeling of the heat and mass exchange process in carbon-plastic upon pulsations of gas flow
    
    Vestn. Tomsk. Gos. Univ. Mat. Mekh., 2011, no. 3(15),  66–75
19. An investigation of the characteristics of conjugate heat and mass transfer under conditions of injection of gas and thermochemical destruction of a body subjected to flow
    
    TVT, 45:5 (2007),  749–755
20. On a method for solving the three-dimensional wave equation
    
    Sib. Zh. Ind. Mat., 9:1 (2006),  147–160
21. Mathematical simulation of the process of fine cleaning of suspensions
    
    TVT, 44:5 (2006),  738–746
22. A method for solving a three-dimensional transport equation
    
    Sib. Zh. Ind. Mat., 7:2 (2004),  148–161
23. A method for solving a nonlinear transport equation
    
    Sib. Zh. Ind. Mat., 6:1 (2003),  154–162
24. Heat-and mass-transfer characteristics in a spatial subsonic flow around a blunt body
    
    Prikl. Mekh. Tekh. Fiz., 43:1 (2002),  137–143
25. Heat transfer characteristics in flow around a spherically blunted cone at incidence and gas injection from a blunted surface
    
    Prikl. Mekh. Tekh. Fiz., 40:4 (1999),  162–169
26. Effect of the mass fraction of a binder in a thermal protective coating on the heat and mass exchange with a high-enthalpy gas flow
    
    Fizika Goreniya i Vzryva, 34:6 (1998),  48–55
27. Calculation of characteristics of heat transfer in a composite body
    
    TVT, 36:1 (1998),  59–64
28. Effect of variation of the physicochemical properties of a phenolic carbon plastic on nonstationary heat and mass exchange in high-temperature destruction in a gas flow
    
    Fizika Goreniya i Vzryva, 33:5 (1997),  76–84
29. Thermal degradation of a carbon phenolic composite in a high-temperature gas flow
    
    Fizika Goreniya i Vzryva, 31:1 (1995),  80–88
30. Calculation of the characteristics of conjugate heat and mass transfer during gas injection and thermochemical ablation in the veil zone
    
    Prikl. Mekh. Tekh. Fiz., 36:2 (1995),  126–135
31. Calculation of characteristics of heat and mass transfer during destruction of thermoprotective material
    
    Fizika Goreniya i Vzryva, 30:4 (1994),  76–84
32. Thermochemical destruction of a carbon epoxy composite under multiple pulse loading
    
    Fizika Goreniya i Vzryva, 29:1 (1993),  87–95
33. Investigation of the temperature regimes of bodies immersed in flow with surface blowing
    
    Prikl. Mekh. Tekh. Fiz., 33:6 (1992),  57–64
34. Coupled heat transfer in a composite material
    
    Prikl. Mekh. Tekh. Fiz., 32:4 (1991),  141–148
35. Thermochemical damage to a carbon-phenolic composite
    
    Fizika Goreniya i Vzryva, 24:2 (1988),  141–149
36. Pyrolysis of two-layer thermoprotective material under the action of a specified heat flux
    
    Fizika Goreniya i Vzryva, 22:4 (1986),  42–48
37. Flaming regimes in a glass-plastic pipe, taking account of mixed convection of a coolant
    
    Fizika Goreniya i Vzryva, 17:2 (1981),  13–22
38. Effect of spreading of a two-phase film of a melt and of radiation on the characteristics of the heat transfer, ignition, and combustion of PMMA
    
    Fizika Goreniya i Vzryva, 14:2 (1978),  39–48
39. Ignition conditions of a reactive mixture of gases in an electrical field
    
    Fizika Goreniya i Vzryva, 10:1 (1974),  74–83