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Publications in Math-Net.Ru |
Citations |
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2023 |
1. |
A. O. Petrov, S. V. Karpov, A. V. Darovskikh, A. S. Dzhalmukhanova, T. A. Pugacheva, V. A. Garanin, D. B. Lempert, L. S. Yanovskii, G. V. Malkov, E. R. Badamshina, “Calculation of thermochemical and detonation parameters of azidoacetylene derivatives of $s$-triazine”, Fizika Goreniya i Vzryva, 59:6 (2023), 42–51 ; Combustion, Explosion and Shock Waves, 59:6 (2023), 707–715 |
2. |
L. S. Yanovskii, A. Yu. Varaksin, K. J. Arefyev, V. M. Ezhov, S. I. Martynenko, N. A. Chervonnaya, “Ignition and combustion of synthetic high molecular hydrocarbons in high enthalpy airflow”, Fizika Goreniya i Vzryva, 59:4 (2023), 35–43 ; Combustion, Explosion and Shock Waves, 59:4 (2023), 424–431 |
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2022 |
3. |
L. S. Yanovskii, V. M. Ezhov, N. A. Chervonnaya, M. A. Il'ina, “Ignition delay of a vapor mixture of high density structurally stressed hydrocarbons with air”, Fizika Goreniya i Vzryva, 58:5 (2022), 12–17 ; Combustion, Explosion and Shock Waves, 58:5 (2022), 516–520 |
4. |
N. N. Volkova, D. V. Dashko, A. F. Zholudev, A. I. Kazakov, M. B. Kislov, A. V. Nabatova, L. S. Yanovskii, “Combustion and thermal decomposition of solid gas-generating compositions based on high-enthalpy polynuclear N-heterocyclic compounds and poly-2-methyl-5-vinyltetrazole”, Fizika Goreniya i Vzryva, 58:4 (2022), 5–15 ; Combustion, Explosion and Shock Waves, 58:4 (2022), 397–407 |
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5. |
E. A. Salgansky, N. A. Lutsenko, L. S. Yanovskii, “Simulation of gasification solid porous energy material in a low-temperature gas generator aircraft”, Fizika Goreniya i Vzryva, 58:3 (2022), 64–70 ; Combustion, Explosion and Shock Waves, 58:3 (2022), 312–317 |
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2021 |
6. |
V. M. Volokhov, E. S. Amosova, A. V. Volokhov, T. S. Zyubina, D. B. Lempert, L. S. Yanovskiy, D. A. Varlamov, “Quantum-chemical modeling of thermochemical properties of molecules of high-energy tetrazines”, Vestn. YuUrGU. Ser. Vych. Matem. Inform., 10:2 (2021), 82–96 |
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2020 |
7. |
L. S. Yanovskii, D. B. Lempert, V. V. Raznoschikov, I. S. Aver'kov, M. S. Sharov, “Assessment of the efficiency of some metals and non-metals in solid propellants for ramjet engines”, Fizika Goreniya i Vzryva, 56:1 (2020), 81–94 ; Combustion, Explosion and Shock Waves, 56:1 (2020), 71–82 |
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2019 |
8. |
E. A. Salgansky, Kh. R. Makhmudov, A. V. Baikov, L. S. Yanovskii, “Thermodynamic estimate of the optimal ratio of the fuel and solid propellant in the gas generator of a high-velocity flying vehicle”, Fizika Goreniya i Vzryva, 55:6 (2019), 76–81 ; Combustion, Explosion and Shock Waves, 55:6 (2019), 702–707 |
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9. |
D. B. Lempert, I. N. Zyuzin, A. V. Nabatova, A. I. Kazakov, L. S. Yanovskii, “Thermochemical and energy characteristics of 1,4-diethylbenzene”, Fizika Goreniya i Vzryva, 55:6 (2019), 14–18 ; Combustion, Explosion and Shock Waves, 55:6 (2019), 644–647 |
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10. |
K. J. Arefyev, L. S. Yanovskii, “Efficiency of combustion of boron-containing particles of the condensed phase in channels with distributed injection of air”, Fizika Goreniya i Vzryva, 55:1 (2019), 63–72 ; Combustion, Explosion and Shock Waves, 55:1 (2019), 56–64 |
11. |
D. B. Lempert, S. V. Chapyshev, A. I. Kazakov, N. A. Plishkin, A. V. Shikhovtsev, L. S. Yanovskii, “Thermochemical and energy characteristics di-, tri-, and tetraazide-substituted azines as gas-forming components of solid propellants for ramjet engines”, Fizika Goreniya i Vzryva, 55:1 (2019), 27–36 ; Combustion, Explosion and Shock Waves, 55:1 (2019), 23–31 |
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2018 |
12. |
L. L. Kartovitskii, V. M. Levin, L. S. Yanovskii, “Differential model and evaluation of the formal kinetic law in the analysis of combustion in a solid-propellant gas generator”, Fizika Goreniya i Vzryva, 54:2 (2018), 51–60 ; Combustion, Explosion and Shock Waves, 54:2 (2018), 170–178 |
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2017 |
13. |
K. J. Arefyev, A. V. Voronetskii, A. N. Prokhorov, L. S. Yanovskii, “Experimental study of the combustion completeness of two-phase gasification products of energetic boron-containing condensed compositions in a high-enthalpy air flow”, Fizika Goreniya i Vzryva, 53:3 (2017), 42–52 ; Combustion, Explosion and Shock Waves, 53:3 (2017), 283–292 |
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2016 |
14. |
S. I. Martynenko, V. M. Volokhov, L. S. Yanovskiy, “Parallel multigrid technique: reduction to independent problems”, Matem. Mod., 28:6 (2016), 89–97 ; Math. Models Comput. Simul., 9:1 (2017), 120–126 |
15. |
I. S. Aver'kov, V. Yu. Alexandrov, K. J. Arefyev, A. V. Voronetskii, O. V. Gus'kov, A. N. Prokhorov, L. S. Yanovskii, “The influence of combustion efficiency on the characteristics of ramjets”, TVT, 54:6 (2016), 939–949 ; High Temperature, 54:6 (2016), 882–891 |
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16. |
V. M. Volokhov, S. I. Martynenko, P. D. Toktaliev, L. S. Yanovskii, A. V. Volokhov, “New approaches to the development of highly efficient parallel algorithms for numerical solution of boundary value problems on structured grids”, Num. Meth. Prog., 17:1 (2016), 72–80 |
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1999 |
17. |
A. M. Starik, N. S. Titova, L. S. Yanovskii, “Analysis of the singularities of the kinetics of combustion of the products of thermal destruction of $n$-octane mixed with air”, TVT, 37:2 (1999), 294–305 ; High Temperature, 37:2 (1999), 270–281 |
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1994 |
18. |
V. V. Yagov, L. S. Yanovskii, F. M. Galimov, A. V. Timoshenko, “Heat transfer under nucleate boiling of jet fuels”, TVT, 32:6 (1994), 867–872 ; High Temperature, 32:6 (1994), 810–814 |
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1990 |
19. |
V. A. Alyaev, V. N. Vetoshkin, A. G. Usmanov, L. S. Yanovskii, “Energy transport by radiation and conduction in liquid hydrocarbon coolants”, TVT, 28:6 (1990), 1189–1194 ; High Temperature, 28:6 (1990), 913–917 |
20. |
A. A. Sagdeev, A. M. Nizamov, N. Kh. Akhunov, A. G. Usmanov, L. S. Yanovskii, “Radiation properties of vapors of heavy hydrocarbons”, TVT, 28:6 (1990), 1101–1106 ; High Temperature, 28:6 (1990), 834–838 |
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1984 |
21. |
A. A. Adomavichus, V. P. Motulevich, È. D. Sergievskii, N. F. Shitov, L. S. Yanovskii, “Heat-transfer in turbulent pipe-flow with directional injection”, TVT, 22:6 (1984), 1142–1145 ; High Temperature, 22:6 (1984), 878–881 |
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