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Publications in Math-Net.Ru |
Citations |
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2014 |
1. |
Yu. V. Polezhaev, R. K. Seleznev, “Numerical Study of the Processes of Resonance Emergence in the Experimental Set-up of a Pulse Detonation Engine”, TVT, 52:2 (2014), 234–239 ; High Temperature, 52:2 (2014), 225–229 |
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2013 |
2. |
V. D. Geshele, Yu. V. Polezhaev, I. P. Raskatov, O. G. Stonik, G. V. Gabbasova, “Ways to increase the flight velocity of a hypersonic vehicle”, TVT, 51:5 (2013), 798–800 ; High Temperature, 51:5 (2013), 722–724 |
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2011 |
3. |
Yu. V. Polezhaev, O. G. Stonik, R. L. Shigin, “Gas Plume Trajectory in Blowing Airflow”, TVT, 49:1 (2011), 143–145 ; High Temperature, 49:1 (2011), 147–149 |
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2010 |
4. |
Yu. V. Polezhaev, O. G. Stonik, “Physical basics of turbulent gas combustion”, TVT, 48:6 (2010), 981–990 ; High Temperature, 48:6 (2010), 934–942 |
2
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5. |
Yu. V. Polezhaev, O. G. Stonik, “From deflagration to detonation: Three modes of combustion”, TVT, 48:4 (2010), 561–567 ; High Temperature, 48:4 (2010), 534–540 |
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2008 |
6. |
V. D. Geshele, I. L. Mostinskii, Yu. V. Polezhaev, I. P. Raskatov, O. G. Stonik, “Experimental investigation of processes of melting-solidification of heat storage materials”, TVT, 46:5 (2008), 700–708 ; High Temperature, 46:5 (2008), 639–646 |
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2007 |
7. |
Yu. V. Polezhaev, I. L. Mostinskii, D. A. Gorjainov, G. V. Gabbasova, A. V. Korshunov, “Simulation of turbulent mode of combustion of gas jets”, TVT, 45:4 (2007), 552–556 ; High Temperature, 45:4 (2007), 497–501 |
1
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8. |
Yu. V. Polezhaev, A. V. Korshunov, G. V. Gabbasova, “Turbulence and turbulent viscosity in jet flows”, TVT, 45:3 (2007), 378–383 ; High Temperature, 45:3 (2007), 334–338 |
1
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2005 |
9. |
Yu. V. Polezhaev, I. L. Mostinskii, “The Normal Flame Velocity and Analysis of the Effect of the System Parameters on This Velocity”, TVT, 43:6 (2005), 933–942 ; High Temperature, 43:6 (2005), 937–946 |
11
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10. |
V. L. Karpov, I. L. Mostinskii, Yu. V. Polezhaev, “Laminar and turbulent modes of combustion of submerged hydrogen jets”, TVT, 43:1 (2005), 115–120 ; High Temperature, 43:1 (2005), 119–124 |
2
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2003 |
11. |
Yu. V. Polezhaev, M. V. Protasov, E. M. Seliverstov, “Generalized law of hydrodynamic drag of a permeable layer”, TVT, 41:6 (2003), 970–972 ; High Temperature, 41:6 (2003), 865–867 |
12. |
G. V. Moskvina, I. L. Mostinskii, Yu. V. Polezhaev, E. M. Seliverstov, “Problems of and prospects for the investigation of the thermal conditions of blades of
high-temperature gas turbines (a review based on presentations to the Third Russian
National Conference on Heat Transfer)”, TVT, 41:5 (2003), 800–816 ; High Temperature, 41:5 (2003), 708–723 |
2
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13. |
Yu. V. Polezhaev, “Heat Transfer in High Temperature (after 40 Years)”, TVT, 41:5 (2003), 645–652 |
14. |
D. S. Mikhatulin, Yu. V. Polezhaev, D. L. Reviznikov, “Investigation of failure of carbon heat-shielding material under conditions of flight in dusty atmosphere”, TVT, 41:1 (2003), 98–105 ; High Temperature, 41:1 (2003), 88–94 |
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2002 |
15. |
Yu. V. Polezhaev, E. M. Seliverstov, “A Universal Model of Heat Transfer in Systems with Penetration Cooling”, TVT, 40:6 (2002), 922–930 ; High Temperature, 40:6 (2002), 856–864 |
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16. |
Yu. V. Polezhaev, M. V. Protasov, E. M. Seliverstov, G. A. Ryabov, “Convective Heat Transfer in Combustors with a Circulating Fluidized Bed”, TVT, 40:2 (2002), 314–322 ; High Temperature, 40:2 (2002), 286–294 |
1
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2001 |
17. |
È. B. Vasilevskii, L. A. Dombrovskii, D. S. Mikhatulin, Yu. V. Polezhaev, “Heat transfer in the neighborhood of the stagnation point under conditions of hypersonic heterogeneous slip flow past bodies”, TVT, 39:6 (2001), 925–938 ; High Temperature, 39:6 (2001), 860–873 |
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18. |
D. S. Mikhatulin, Yu. V. Polezhaev, D. L. Reviznikov, “Investigation of failure of fiberglass plastic under conditions of flight in dusty atmosphere”, TVT, 39:4 (2001), 640–648 ; High Temperature, 39:4 (2001), 596–603 |
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19. |
Yu. V. Polezhaev, M. V. Protasov, E. M. Seliverstov, “Channel model as a means for describing the hydrodynamics and heat transfer in porous media”, TVT, 39:1 (2001), 146–153 ; High Temperature, 39:1 (2001), 142–149 |
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1999 |
20. |
Yu. V. Polezhaev, “Progress and Trends in Modern Thermophysics (a review of the publications made in High Temperature in recent years)”, TVT, 37:4 (1999), 663–675 ; High Temperature, 37:4 (1999), 633–645 |
21. |
A. Yu. Varaksin, Yu. V. Polezhaev, A. F. Polyakov, “The effect of the concentration of particles on the intensity of pulsations of their velocities under conditions of turbulent flow of suspension of matter in gas in a pipe”, TVT, 37:2 (1999), 343–346 ; High Temperature, 37:2 (1999), 321–323 |
1
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1998 |
22. |
A. Yu. Varaksin, Yu. V. Polezhaev, A. F. Polyakov, “Experimental investigation of the effect of solid particles on turbulent flow of air in a pipe”, TVT, 36:5 (1998), 767–775 ; High Temperature, 36:5 (1998), 744–752 |
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23. |
Yu. V. Polezhaev, S. V. Reznik, “Advanced thermal technologies and materials”, TVT, 36:3 (1998), 524–527 ; High Temperature, 36:3 (1998), 503–506 |
24. |
A. Yu. Varaksin, Yu. V. Polezhaev, A. F. Polyakov, “Equations of pulsation motion and pulsation heat transfer of non-Stokes particles in turbulent flows”, TVT, 36:1 (1998), 154–157 ; High Temperature, 36:1 (1998), 152–155 |
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1997 |
25. |
Yu. V. Polezhaev, A. F. Polyakov, “Parametric analysis of the thermal conditions of a porous wall under penetration cooling”, TVT, 35:4 (1997), 605–613 ; High Temperature, 35:4 (1997), 593–601 |
1
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26. |
R. B. Kuz'min, D. S. Mikhatulin, Yu. V. Polezhaev, D. L. Reviznikov, V. V. Rusakov, “Investigation of solidification of smelt drops in high-velocity flow of cold gas”, TVT, 35:3 (1997), 504–507 ; High Temperature, 35:3 (1997), 497–500 |
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27. |
Yu. V. Polezhaev, A. F. Polyakov, V. M. Potsepkin, I. V. Repin, “Thermal conditions of a porous wall under penetration cooling: Formulation and solution
of the problem”, TVT, 35:1 (1997), 86–92 ; High Temperature, 35:1 (1997), 83–89 |
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1996 |
28. |
V. E. Abaltusov, G. V. Kuznetsov, D. S. Mikhatulin, Yu. V. Polezhaev, A. I. Tkachev, “Numerical analysis of singularities of ablation when cutting structural materials by a jet of high-temperature gas”, TVT, 34:2 (1996), 280–284 ; High Temperature, 34:2 (1996), 275–279 |
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1995 |
29. |
Yu. V. Polezhaev, D. S. Mikhatulin, D. L. Reviznikov, V. V. Rusakov, “Basic regularities of crystallization kinetics and possibilities of preparing amorphous metals”, TVT, 33:6 (1995), 971–976 ; High Temperature, 33:6 (1995), 970–975 |
30. |
A. Yu. Varaksin, D. S. Mikhatulin, Yu. V. Polezhaev, A. F. Polyakov, “Measurements of velocity fields of gas and solid particles in the boundary layer of turbulized heterogeneous flow”, TVT, 33:6 (1995), 915–921 ; High Temperature, 33:6 (1995), 911–917 |
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31. |
R. B. Kuz'min, Yu. V. Polezhaev, A. F. Polyakov, D. L. Reviznikov, “Numerical simulation of conjugate heat transfer under conditions of flow around gas turbine blades”, TVT, 33:4 (1995), 608–615 ; High Temperature, 33:4 (1995), 602–608 |
32. |
D. S. Mikhatulin, Yu. V. Polezhaev, D. L. Reviznikov, V. V. Rusakov, “Formation of amorphous metallic particles during aerodynamic cooling”, TVT, 33:3 (1995), 430–436 ; High Temperature, 33:3 (1995), 429–434 |
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1992 |
33. |
Yu. V. Polezhaev, I. V. Repin, D. S. Mikhatulin, “Heat transfer in a heterogeneous supersonic flow”, TVT, 30:6 (1992), 1147–1153 ; High Temperature, 30:6 (1992), 949–954 |
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34. |
Yu. V. Polezhaev, S. A. Kovalev, “Enhanced boiling heat exchange”, TVT, 30:5 (1992), 1013–1024 ; High Temperature, 30:5 (1992), 845–856 |
1
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35. |
D. S. Mikhatulin, Yu. V. Polezhaev, I. V. Repin, “Methods and facilities for the simulation of heat transfer in high-velocity heterogeneous flows”, TVT, 30:3 (1992), 573–579 ; High Temperature, 30:3 (1992), 463–468 |
36. |
D. S. Mikhatulin, Yu. V. Polezhaev, “Similarity of thermal and erosion breakdown processes”, TVT, 30:2 (1992), 325–333 ; High Temperature, 30:2 (1992), 258–265 |
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1990 |
37. |
N. M. Gavrilova, N. V. Medvetskaya, Yu. V. Polezhaev, “Modeling the thermomechanical load on the lateral surface of a body in a high-speed gas flow”, TVT, 28:4 (1990), 728–735 ; High Temperature, 28:4 (1990), 548–554 |
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1989 |
38. |
Yu. V. Polezhaev, V. A. Tlevtsezhev, V. L. Strakhov, “Study of the behavior of composite-materials under the combined influence of radiative-convective heat flows”, TVT, 27:2 (1989), 341–346 ; High Temperature, 27:2 (1989), 274–278 |
39. |
Yu. V. Polezhaev, Yu. N. Shishkin, “Possibility of modeling turbulent heat-transfer in hypersonic flow over bodies in jets of limited size”, TVT, 27:1 (1989), 104–108 ; High Temperature, 27:1 (1989), 96–100 |
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1973 |
40. |
Yu. V. Polezhaev, Yu. G. Narozhniy, V. E. Safonov, “Метод определения коэффициента теплопроводности высокотемпературных материалов при их нестационарном нагреве”, TVT, 11:3 (1973), 609–615 |
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1966 |
41. |
V. V. Gorskii, Yu. V. Polezhaev, “О некоторых особенностях, связанных с течением пленки расплава”, TVT, 4:2 (1966), 218–227 |
1
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1965 |
42. |
Yu. V. Polezhaev, “О взаимном влиянии процессов испарения, горения и коксования при разрушении в высокотемпературном потоке газа”, TVT, 3:5 (1965), 731–739 |
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1964 |
43. |
Yu. V. Polezhaev, “The process um by which stationary conditions are established in the melting of a viscous glassy material”, Dokl. Akad. Nauk SSSR, 156:2 (1964), 290–293 |
44. |
Yu. V. Polezhaev, “Влияние неравновесности испарения диссоциации паров на параметры уноса массы стеклообразных теплозащитных материалов”, TVT, 2:1 (1964), 32–38 |
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1963 |
45. |
Yu. V. Polezhaev, “Use of experiments on varying-rate ablation to determine the thermal conductivity and other physical properties of vitreous heat-shield materials”, TVT, 1:1 (1963), 33–38 ; High Temperature, 1:1 (1963), 27–31 |
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