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Romenskii, Evgenii Igorevich
Senior Researcher
Doctor of physico-mathematical sciences
E-mail:
Website: http://www.math.nsc.ru/LBRT/d1/english/romenskii.htm

https://www.mathnet.ru/eng/person28279
List of publications on Google Scholar
https://mathscinet.ams.org/mathscinet/MRAuthorID/230900

Publications in Math-Net.Ru Citations
2024
1. G. V. Reshetova, E. I. Romenski, “Modeling of temperature-dependent wave fields in deformable porous media saturated with fluid”, Sib. Zh. Vychisl. Mat., 27:4 (2024),  425–441  mathnet
2017
2. E. I. Romenskii, E. V. Lys, V. A. Tcheverda, M. I. Èpov, “Dynamics of deformation of an elastic medium with initial stresses”, Prikl. Mekh. Tekh. Fiz., 58:5 (2017),  178–189  mathnet  elib; J. Appl. Mech. Tech. Phys., 58:5 (2017), 914–923 8
2016
3. A. A. Belozerov, E. I. Romenski, N. A. Lebedeva, “Numerical modeling of gas-liquid compressible pipe flow based on thermodynamically compatible systems theory”, Sib. J. Pure and Appl. Math., 16:1 (2016),  40–56  mathnet; J. Math. Sci., 228:4 (2018), 357–371 2
2014
4. A. S. Romankov, E. I. Romenski, “The Runge–Kutta/WENO method for solving equations for small-amplitude wave propagation in a saturated porous medium”, Sib. Zh. Vychisl. Mat., 17:3 (2014),  259–271  mathnet  mathscinet; Num. Anal. Appl., 7:3 (2014), 215–226 2
2011
5. E. I. Romenskiĭ, “A thermodynamically consistent system of conservation laws for the flow of a compressible fluid in an elastic porous medium”, Sib. Zh. Ind. Mat., 14:4 (2011),  86–97  mathnet  mathscinet 3
2010
6. E. I. Romenskiĭ, A. D. Sadykov, “On modelling the frequency transformation effect in elastic waves”, Sib. Zh. Ind. Mat., 13:3 (2010),  117–125  mathnet  mathscinet 3
7. M. N. Dmitriev, E. I. Romenski, “WENO/RK method for modelling elastic waves”, Ufimsk. Mat. Zh., 2:1 (2010),  59–70  mathnet  zmath 1
2007
8. E. I. Romenskii, “Deformation model for brittle materials and the structure of failure waves”, Prikl. Mekh. Tekh. Fiz., 48:3 (2007),  164–172  mathnet  elib; J. Appl. Mech. Tech. Phys., 48:3 (2007), 437–444 6
1996
9. S. K. Godunov, T. Yu. Mikhailova, E. I. Romenskii, “Systems of thermodynamically coordinated laws of conservation invariant under rotations”, Sibirsk. Mat. Zh., 37:4 (1996),  790–806  mathnet  mathscinet  zmath; Siberian Math. J., 37:4 (1996), 690–705  isi 40
1994
10. E. I. Romenskii, “Symmetric form of the equations of a nonlinear Maxwell medium”, Trudy Inst. Mat. SO RAN, 26 (1994),  91–106  mathnet  mathscinet  zmath
1993
11. L. A. Merzhievskii, A. D. Resnyanskii, E. I. Romenskii, “Modelling of shock wave processes in unidirectional composites”, Fizika Goreniya i Vzryva, 29:5 (1993),  72–76  mathnet; Combustion, Explosion and Shock Waves, 29:5 (1993), 620–624
12. A. D. Resnyanskii, E. I. Romenskii, “Model of dynamic deformation of a laminated thermoviscoelastic composite”, Fizika Goreniya i Vzryva, 29:4 (1993),  123–131  mathnet; Combustion, Explosion and Shock Waves, 29:4 (1993), 535–541 1
13. V. N. Dorovskii, Yu. V. Perepechko, E. I. Romenskii, “Wave processes in saturated porous elastically deformed media”, Fizika Goreniya i Vzryva, 29:1 (1993),  99–110  mathnet; Combustion, Explosion and Shock Waves, 29:1 (1993), 93–103 14
1992
14. L. A. Merzhievskii, A. D. Resnyanskii, E. I. Romenskii, “Model of dynamic deformation of unidirectional composites”, Dokl. Akad. Nauk, 327:1 (1992),  48–54  mathnet  zmath
15. A. D. Resnyanskii, E. I. Romenskii, “Dynamic strain model for a fibrous thermoviscoelastic composite”, Fizika Goreniya i Vzryva, 28:4 (1992),  120–126  mathnet; Combustion, Explosion and Shock Waves, 28:4 (1992), 430–436 2
16. L. A. Merzhievskii, A. D. Resnyanskii, E. I. Romenskii, “A model for a viscoelastic composite with microstresses”, Trudy Inst. Mat. SO RAN, 22 (1992),  151–167  mathnet  mathscinet  zmath 1
1990
17. E. I. Romenskii, “A numerical method for the two-dimensional dynamical equations of the nonlinear elastoplastic Maxwell medium”, Trudy Inst. Mat. Sib. Otd. AN SSSR, 18 (1990),  83–100  mathnet  mathscinet  zmath
18. S. K. Godunov, E. I. Romenskii, G. A. Chumakov, “Construction of difference grids in complex domains by means of quasiconformal mappings”, Trudy Inst. Mat. Sib. Otd. AN SSSR, 18 (1990),  75–83  mathnet  mathscinet  zmath
1989
19. E. I. Romenskii, “Hyperbolic equations of Maxwell’s nonlinear model of elastoplastic heat-conducting media”, Sibirsk. Mat. Zh., 30:4 (1989),  135–159  mathnet  mathscinet  zmath; Siberian Math. J., 30:4 (1989), 606–625  isi 16
1988
20. E. I. Romenskii, “Godunov's difference scheme for one-dimensional relaxation equations of thermoelastoplasticity”, Trudy Inst. Mat. Sib. Otd. AN SSSR, 11 (1988),  101–115  mathnet  mathscinet  zmath
21. E. I. Romenskii, “Relaxation model for describing the strain of porous materials”, Prikl. Mekh. Tekh. Fiz., 29:5 (1988),  145–149  mathnet; J. Appl. Mech. Tech. Phys., 29:5 (1988), 735–738 2
1986
22. A. N. Malyshev, E. I. Romenskii, “Hyperbolic equations of heat conduction. Global solvability of the Cauchy problem”, Sibirsk. Mat. Zh., 27:5 (1986),  128–134  mathnet  mathscinet  zmath; Siberian Math. J., 27:5 (1986), 734–740  isi 12
1984
23. A. M. Iskol'dskiy, E. I. Romenskii, “A dynamic model of a thermoelastic continuous medium with pressure relaxation”, Prikl. Mekh. Tekh. Fiz., 25:2 (1984),  132–138  mathnet; J. Appl. Mech. Tech. Phys., 25:2 (1984), 291–298 2
1983
24. V. N. Dorovskii, A. M. Iskol'dskiy, E. I. Romenskii, “Dynamics of impulsive metal heating by a current and electrical explosion of conductors”, Prikl. Mekh. Tekh. Fiz., 24:4 (1983),  10–25  mathnet; J. Appl. Mech. Tech. Phys., 24:4 (1983), 454–467 20
1979
25. E. I. Romenskii, “Propagation of small perturbations and the slip line in a plastic medium”, Prikl. Mekh. Tekh. Fiz., 20:6 (1979),  158–163  mathnet; J. Appl. Mech. Tech. Phys., 20:6 (1979), 789–794
26. E. I. Romenskii, “Dynamic three-dimensional equations of the Rakhmatulin elastic-plastic model”, Prikl. Mekh. Tekh. Fiz., 20:2 (1979),  138–158  mathnet; J. Appl. Mech. Tech. Phys., 20:2 (1979), 229–244 7
1977
27. E. I. Romenskii, “Perturbation of the front of a flat plastic wave”, Prikl. Mekh. Tekh. Fiz., 18:4 (1977),  133–140  mathnet; J. Appl. Mech. Tech. Phys., 18:4 (1977), 543–549
1974
28. E. I. Romenskii, “Characteristic cones of the equations in the nonlinear theory of elasticity”, Prikl. Mekh. Tekh. Fiz., 15:3 (1974),  126–132  mathnet; J. Appl. Mech. Tech. Phys., 15:3 (1974), 387–391
29. E. I. Romenskii, “Hypoelastic form of equations in nonlinear elasticity theory”, Prikl. Mekh. Tekh. Fiz., 15:2 (1974),  133–138  mathnet; J. Appl. Mech. Tech. Phys., 15:2 (1974), 255–259 6
30. S. K. Godunov, N. S. Kozin, E. I. Romenskii, “Equations of state of the elastic energy of metals in the case of a nonspherical strain tensor”, Prikl. Mekh. Tekh. Fiz., 15:2 (1974),  123–128  mathnet; J. Appl. Mech. Tech. Phys., 15:2 (1974), 246–250 14
1972
31. S. K. Godunov, E. I. Romenskii, “Nonstationary equations of nonlinear elasticity theory in Eulerian coordinates”, Prikl. Mekh. Tekh. Fiz., 13:6 (1972),  124–144  mathnet; J. Appl. Mech. Tech. Phys., 13:6 (1972), 868–884 97
2015
32. V. N. Belykh, K. V. Brushlinskii, V. L. Vaskevich, S. P. Kiselev, A. N. Kraiko, A. G. Kulikovskii, V. I. Mali, V. V. Pukhnachov, E. I. Romensky, V. S. Ryaben'kii, “Sergei Konstantinovich Godunov has turned 85 years old”, Uspekhi Mat. Nauk, 70:3(423) (2015),  183–207  mathnet  mathscinet  zmath  elib; Russian Math. Surveys, 70:3 (2015), 561–590  isi  scopus

Presentations in Math-Net.Ru
1. Акустические волны в упругих средах с дефектами
I. M. Peshkov, E. I. Romenskii

August 13, 2021 17:30
2. On structure-preserving schemes for continuum mechanics
S. Busto, M. Dumbser, I. M. Peshkov, E. I. Romenskii

August 13, 2021 15:20
3. Гиперболическая двухфазная модель пористой среды, насыщенной вязкой жидкостью, и ее применение для моделирования волновых полей
G. V. Reshetova, E. I. Romenskii, I. M. Peshkov

August 13, 2021 14:55
4. Термодинамически согласованная гиперболическая модель деформируемой пористой среды насыщенной многофазной жидкостью
E. I. Romenskii, G. V. Reshetova, I. M. Peshkov, M. Dumbser

August 13, 2021 14:30
5. Unified thermodynamically consistent continuum model, application to problems of continuum mechanics
E. I. Romenskii
Actual Problems of Applied Mathematics
December 4, 2020   

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