пластинки и оболочки,
механика сплошных сред,
нелинейная теория упругости,
обобщенные среды,
континуум Коссера.
Коды УДК:
539.3
Основные темы научной работы
механика сплошных сред и тонкостенных элементов конструкций с микроструктурой
Научная биография:
2004 Awarded Dr. hab. (Doctor of science of Physics & Mathematics)
at Institute of Problems of Mechanical Engineering of RAS, Saint-Petersburg (Thesis title: Mechanics of two-phase bodies with microstructure under finite deformations).
1996 Diploma of Associate Professor (Docent).
1990 Awarded PhD (Candidate of Physics & Mathematics) at Rostov State University (Thesis title: The stability of two-phase nonlinear thermo-elastic bodies).
1985–1989 Fellowship for Candidate of Science in Physics and Mathematics (= Ph.D.) (Division of Elasticity of Rostov State University).
1980–1985 Diploma in Mechanics (Department of Mechanics and Mathematics, Rostov State University).
1987–present Rostov Mathematical Society.
Over 20 years of work experience. Associated Professor, Professor of Divisions of Computer Science, Elasticity and Mathematical Modeling of Department of Mechanics&Mathematics of Rostov State University, head of the laboratory of smart materials in Southern Scientific center of RAS.
Technical authority in Applied Mathematics and Mechanics of Solids. Experience includes Education, Teaching, Programming.
2004–present Head of the Laboratory of Smart Materials.
At Rostov State University (since 2007 Southern Federal University):
2005–present Professor of Division of Mathematical Modeling.
1998–2004 Associate Professor (Docent) of Division of Mathematical Modeling.
1996–1998 Associate Professor (Docent) of Division of Computer Science and Division of Elasticity.
1988–1996 Assistant Professor, Senior Lecturer of Division of Computer Science.
At Research Institute of Mechanics and Applied Mathematics at Rostov State University:
1985–1998 Research Worker, Senior Research Worker.
At Rostov State Civil Engineering University:
1997–1998 Associate Professor (Docent) of Division of Resistance of Materials.
At Institute of Problems of Mechanical
Engineering of Russian Academy
of Science (Saint Petersburg, Russia):
2000–present Senior Research Worker of the Laboratory of Mathematical Methods in Mechanics of Materials.
Scientific visits:
2003 Gdansk, Poland, Institute of Fluid-Flow Machinery of the Polish Academy of Sciences.
2005 Gdansk, Poland, Institute of Fluid-Flow Machinery of the Polish Academy of Sciences.
2007 Halle, Germany, Martin-Luther University Halle-Wittenberg.
Member of Scientific Committee of following Conferences:
Actual Problems of Continuum Mechanics (Rostov on Don, 1996, 1997, 1998, 1999, 2000, 2001, 2002);
International Conference on Environmental Mathematical Modeling and Numerical Analysis (EMMNA'99) (Rostov on Don, 1999);
The 3rd Conference on Elasticity (Azov, 2003);
The 8th conference "Shell Structures: Theory and Applications (SSTA2005)". Gdansk (Jurata), 2005;
"Advanced Problems in Mechanics (APM)", Saint-Petersburg, 2003, 2004, 2005, 2006, 2007.
Co-editor of special issues of journal "Notices of North Caucasus: Natural Sciences. Nonlinear Problems of Continuum Mechanics" (2000, 2003).
Grants:
Participated in grants of International Science Foundations (ISF), Russian Foundation of Basic Research (RFBR), CRDF, Jozef Mianowski fund, DFG, Competition Center of Saint-Petersburg State University and Science program "Universities of Russia".
The paper "The theory of elastic and viscoelastic micropolar fluids" was awarded to prize by publishing house Elsevier as the best paper published in Prikladnaja Matematika i Mekhanika (J. Appl. Math. and Mech.) in 1999.
Основные публикации:
V. A. Eremeyev, L. P. Lebedev, “Mathematical study of boundary-value problems within the framework of Steigmann.Ogden model of surface elasticity”, Continuum Mechanics and Thermodynamics, 28:1-2 (2016), 407–422
V. A. Eremeyev, G. Rosi, S. Naili, “Surface/interfacial anti-plane waves in solids with surface energy”, Mechanics Research Communications, 74 (2016), 8–13
M. Nase, M. Rennert, K. Naumenko, V. A. Eremeyev, “Identifying traction.separation behavior of self-adhesive polymeric films from in situ digital images under T-peeling”, Journal of the Mechanics and Physics of Solids, 91 (2016), 40–55
V. A. Eremeyev, “On effective properties of materials at the nano-and microscales considering surface effects”, Acta Mechanica, 227:1 (2016), 29–42
V. A. Eremeyev, L. P. Lebedev, M. J. Cloud, “The Rayleigh and Courant variational principles in the six-parameter shell theory”, Mathematics and Mechanics of Solids, 20:7 (2015), 806–822
В. А. Еремеев, “Устойчивость фермы Мизеса при потере эллиптичности материала”, Прикл. мех. техн. физ., 65:2 (2024), 226–229
2023
2.
В. А. Еремеев, “Об эллиптичности уравнений равновесия градиентной теории упругости и устойчивости в малом”, Вестник Санкт-Петербургского университета. Математика. Механика. Астрономия, 10:1 (2023), 99–108; V. A. Eremeyev, “On ellipticity of static equations of strain gradient elasticity and infinitesimal stability”, Vestn. St. Petersbg. Univ., Math., 56:1 (2023), 77–83
В. А. Еремеев, Е. А. Иванова, Д. А. Индейцев, “Волновые процессы в наноструктурах, образованных массивами нанотрубок или наноразмерных кристаллов”, Прикл. мех. техн. физ., 51:4 (2010), 143–154; V. A. Eremeyev, E. A. Ivanova, D. A. Indeitsev, “Wave processes in nanostructures formed by nanotube arrays or nanosize crystals”, J. Appl. Mech. Tech. Phys., 51:4 (2010), 569–578
В. А. Еремеев, Х. Альтенбах, Н. Ф. Морозов, “О влиянии поверхностного натяжения на эффективную жесткость наноразмерных пластин”, Докл. РАН, 424:5 (2009), 618–620
2008
5.
В. А. Еремеев, Е. А. Иванова, Н. Ф. Морозов, “Механические проблемы в нанотехнологии”, Изв. Сарат. ун-та. Нов. сер. Сер.: Математика. Механика. Информатика, 8:3 (2008), 25–32
В. А. Еремеев, Е. А. Иванова, Н. Ф. Морозов, С. Е. Строчков, “Исследование собственных колебаний систем нанотрубок”, Прикл. мех. техн. физ., 49:2 (2008), 160–171; V. A. Eremeyev, E. A. Ivanova, N. F. Morozov, S. E. Strochkov, “Natural vibrations in a system of nanotubes”, J. Appl. Mech. Tech. Phys., 49:2 (2008), 291–300
Л. М. Зубов, В. А. Еремеев, “Уравнения вязкоупругой микрополярной жидкости”, Докл. РАН, 351:4 (1996), 472–475; L. M. Zubov, V. A. Eremeyev, “Equations of a viscoelastic micropolar fluid”, Dokl. Math., 41:12 (1996), 598–601
1995
11.
В. А. Еремеев, Е. С. Никитин, “Фазовые превращения в упругих телах с дислокациями и дисклинациями”, Докл. РАН, 345:2 (1995), 188–192; V. A. Eremeev, E. S. Nikitin, “Phase transformations in elastic bodies with dislocations and
disclinations”, Dokl. Math., 40:11 (1995), 595–599
1992
12.
В. А. Еремеев, Л. М. Зубов, М. И. Карякин, Н. Я. Чернега, “Образование полостей в нелинейно-упругих телах с дислокациями и дисклинациями”, Докл. РАН, 326:6 (1992), 968–971; V. A. Eremeyev, L. M. Zubov, M. I. Karyakin, N. Ya. Chernega, “Cavitation in non-linearly elastic bodies with dislocations and
disclinations”, Dokl. Math., 37:10 (1992), 518–520
В. А. Еремеев, Л. М. Зубов, “Условия фазового равновесия в нелинейно-упругих средах с микроструктурой”, Докл. РАН, 322:6 (1992), 1052–1056; V. A. Eremeyev, L. M. Zubov, “Conditions for phase equilibrium in non-linearly elastic media
with microstructure”, Dokl. Math., 37:2 (1992), 114–116
1991
14.
В. А. Еремеев, “Выпучивание нелинейно-упругой плиты, лежащей на поверхности жидкости, с учетом фазового превращения”, Прикл. мех. техн. физ., 32:3 (1991), 141–147; V. A. Eremeyev, “Buckling of a nonlinearly elastic slab lying on the surface of a liquid with allowance for phase transformation”, J. Appl. Mech. Tech. Phys., 32:3 (1991), 433–439
Обратная связь: