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Evgenii I. Romenskii

Mr., Dr. Evgenii I. Romenskii,
Sobolev Institute of Mathematics,
Siberian Branch of Russian Academy of Sciences,
prospect Koptyuga, 4,
630090 Novosibirsk, Russia,
phone: (+7-3832)33-38-87,
fax: (+7-3832)33-25-98,

Personal data
Selected publications

Personal data:

Last name: Romenskii
First name: Evgenii
Second name: Igorevich
Languages: Russian (native language), English

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Selected publications:


Elements of Continuum Mechanics and Conservation Laws, Novosibirsk, Nauchnaya Kniga Publishers, 1998. (with S.K.Godunov; in Russian).


1. Nonstationary equations of nonlinear elasticity theory in Euler coordinates. Journ. Appl. Mech. Techn. Phys., Vol. 13, No 6, 1972, pp. 868-885. (with S.K.Godunov).

2. Hypoelastic form of equations of nonlinear elasticity theory. Journ. Appl. Mech. Techn. Phys., Vol. 15, No 2, 1974, pp. 133-138.

3. Characteristic cones of the equations in the nonlinear theory of elasticity. Journ. Appl. Mech. Tech. Phys., Vol. 15, No 3, 1974, pp. 387-391.

4. Equation of state of the elastic energy of metals with a nonspherical tensor of deformations. Journ. Appl. Mech. Techn. Phys., Vol. 15, No 2, 1972, pp. 123-128. (with S.K.Godunov, N.S.Kozin).

5. Perturbation of the front of a plastic wave. Journ. Appl. Mech. Techn. Phys., Vol. 18, No 4, 1977, pp. 543-549.

6. Stability of limit stationary solution of flow over cone. Izvestija Sib. Otd. Akad. Nauk USSR, Ser. Tehn. Nauk, No 3, 1978, pp. 87-97. (with A.M.Blokhin; in Russian).

7. Dynamic three-dimensional equations of the Kh. A. Rakhmatulin elastoplastic model. Journ. Appl. Mech. Techn. Phys. Vol. 20, No 2, 1979, pp. 229-244.

8. Propagation of small perturbations and the slip lines in a plastic media. Journ. Appl. Mech. Tech. Phys., Vol. 20, No 6, 1979, pp. 158-163.

9. Influence of limit stationary solution on its steady state. Izvestija Sib. Otd. Akad. Nauk USSR, Ser. Tehn. Nauk, No 1, pp. 44-50. (with A.M.Blokhin; in Russian).

10. Dynamics of impulse heating of metals by current and electrical explosion of conductors. Journ. Appl. Mech. Tech. Phys., No 4, 1983, pp. 10-25. (with V.N.Dorovsky, A.M.Iskoldsky).

11. A dynamic model of a thermoelastic continuous medium with pressure relaxation. Journ. Appl. Mech. Tech. Phys., Vol. 25, No 2, 1984, pp. 291-298. (with A.M.Iskoldsky).

12. Conservation laws and the symmetric form of equations of nonlinear elasticity theory. Boundary Value Problems for Partial Differential Equations, Proc. Sobolev Sem., Akad. Nauk USSR, Sib. Otd., Inst. Mat. Novosibirsk, No 1, 1984, pp. 132-143. (in Russian).

13. Hyperbolic equations for heat transfer. Global solvability of the Cauchy problem. Siberian Math. J., Vol. 27, No 5, 1986, pp. 734-740. (with A.N.Malyshev).

14. Godunov's difference method for one-dimensional relaxational equations of thermoelastoplasticity. Proc. Inst. Math. Akad. Nauk USSR, Sib. Otd., Vol. 11, 1988, pp. 101-115. (in Russian).

15. Relaxation model for describing the strain of porous materials. Journ. Appl. Mech. Tech. Phys., Vol. 29, No 5, 1988, pp. 735-738.

16. Hyperbolic equations of Maxwell's nonlinear model of elastoplastic heat-conducting media. Siberian Math. J., Vol. 30, No 4, 1988, pp. 135-159.

17. Numerical method for 2D equations of nonlinear elastoplastic Maxwell's media. Proc. Inst. Math. Akad. Nauk USSR, Sib. Otd., Vol. 18, 1990, pp. 83-100. (in Russian).

18. Grid generation by quasiconformal mappings in complex domains. Proc. Inst. Math. Akad. Nauk USSR, Sib. Otd., Vol. 18, 1990, pp. 75-83. (with S.K.Godunov, G.A.Tchumakov; in Russian).

19. The model of viscoelastic composite. Journ. de Physique, IY, Coll. C3, Vol. 1, 1991, pp. 923-930. (with A.D.Resnyansky, L.A.Merzhievsky).

20. The model of dynamic deformation of unidirectional composite. Sov. Phys. Dokl., Vol. 37, No 11, 1992, pp. 552-555. (with L.A.Merzhievsky and A.D.Resnyansky).

21. Dynamic strain model for a fibrous thermoviscoelastic composite. Combustion, Explosion, and Shock Waves (Fiz. Gorenia i Vzryva), No 4, 1992, pp. 430-436. (with A.D.Resnyansky).

22. Nonstationary wave processes in porous saturated media. Combustion, Explosion, and Shock Waves (Fiz. Gorenia i Vzryva), No 1, 1993. (with V.N.Dorovsky, Yu.V.Perepechko).

23. Model of dynamic deformation of a laminated thermoviscoelastic composite. Combustion, Explosion, and Shock Waves (Fiz. Gorenia i Vzryva), No 4, 1993, pp. 123-131. (with A.D.Resnyansky).

24. Modelling of shock wave processes in unidirectional composites. Combustion, Explosion, and Shock Waves (Fiz. Gorenia i Vzryva), No 5, 1993, pp. 72-76. (with L.A.Merzhievsky, A.D.Resnyansky).

25. A Model for a visco-elastic composite material with microstresses. Siberian Advances in Mathematics, Vol. 4, No 4, 1994, pp. 60-81. (with L.A.Merzhievsky, A.D.Resnyansky).

26. Godunov's scheme for the analysis of the nonlinear wave process in the two-velocity media with elastic interaction. FED-Vol. 196, Advances in Computational Methods in Fluid Dynamics, ASME 1994, pp. 355-366. (with V.N.Dorovsky, Yu.V.Perepechko).

27. Symmetric form of the equations of a nonlinear Maxwell's medium. Siberian Advances in Mathematics, Vol. 5, No 1, 1995, pp. 120-137.

28. Model of viscoelastic unidirectional composite with coupled thermal and elastic processes. In Shock Waves @ Marseille III (Eds. R. Brun, L.Z. Dumitrescu), Shock Waves in Condensed Matter and Heterogeneous Media, Proc. of the 19th Int. Symp. on Shock Waves, Marseille, France, 26-30 July 1993, Vol. 3, Springer 1995, pp. 273-278. (with A.D.Resnyansky).

29. Thermodynamical foundations for special evolution differential equations of continuous media. In "Trends in Applications of Mathematics to Mecanics", Pitman Monographs and Surways in Pure and Appl. Math. 77, Longman, 1995, pp. 25-36. (with S.K.Godunov).

30. Thermodynamics, conservation laws, and symmetric forms of differential equations in mechanics of continuous media. Computational Fluid Dynamics REVIEW95, 1995, John Wiley, NY, pp. 19-31. (with S.K.Godunov).

31. Numerical modelling the non-equilibrium phase transitions in the continuum media by a nonlinear kinetics. DYMAT Journ., Vol. 2, No 3, 1995. (with A.D.Resnyansky).

32. Two-phase modelling for a description of a hypervelocity liquid injection into air, In: (Eds., W.Y.D.Yuen, P.Broadbridge, J.M.Steiner), 2nd Biennial Australian Engineering Mathematics Conference, 15-17 July 1996, Dydney, Australia, 1996, The Institute of Engineers, Australia, pp. 287-292. (with A.D.Resnyansky, B.E.Milton).

33. Symmetric forms of thermodynamically compatible systems of conservation laws in continuum mechanics. In Numerical Methods in Engineering, (Eds., J.-A.Desideri, P.Le Tallec, E.Onate, J.Periaux, E.Stein) Proceedings of the 2nd ECCOMAS Conference on Numerical Methods in Engineering, 9-13 September 1996, Paris, France, John Wiley & Sons. (with S.K.Godunov).

34. Systems of thermodynamically coordinated laws of conservation invariant under rotations. Siberian Math. J., Vol. 37, No 4, 1996, pp. 690-705. (with S.K.Godunov, T.Yu.Mikhailova).

35. Using a Homogenization Procedure for Prediction of Material Properties and the Impact Response of Unidirectional Composite. Proc. 11th Int. Conf. on Composite Materials, Gold Coast, Queensland, Australia, 14-18 July 1997, Vol. II: Fatigue, Fracture and Ceramic Matrix Composites (Ed. Murray, L.Scott), Australia Composite Structures Society, Woodhead Publishing Ltd, 1997, pp. 552-561. (with A.D.Resnyansky).

36. A Hydrodynamic Nonlinear Model of Bubble Liquid (II), Computers Math. Applic., Vol. 33, No 6, 1997, pp. 13-15. (with V.N.Dorovsky, Kh.Kh.Imomnazarov).

37. A Two-Phase Shock-Wave Model of Hypervelocity Liquid Jet Iniection into Air. Proc. JSME Centennial Grand Congress (Int. Conf. on Fluid Engnrg), JSME ICFE-97-228, Tokyo, Japan, 13-16 July, 1997, pp. 943-947. (with A.D.Resnyansky, B.E.Milton).

38. Hyperbolic Systems of Thermodynamically Compatible Conservation Laws in Continuum Mechanics. Math. Comput. Modelling, Vol. 28, No 10, 1998, pp. 115-130.

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Update: 19.04.99.