13 citations to 10.1007/s11784-013-0122-7 (Crossref Cited-By Service)
  1. А.В. Звягин, В.Г. Звягин, “PULLBACK-АТТРАКТОРЫ МОДЕЛИ ДВИЖЕНИЯ СЛАБО КОНЦЕНТРИРОВАННЫХ ВОДНЫХ РАСТВОРОВ ПОЛИМЕРОВ С РЕОЛОГИЧЕСКИМ СООТНОШЕНИЕМ, УДОВЛЕТВОРЯЮЩИМ ПРИНЦИПУ ОБЪЕКТИВНОСТИ, "Доклады Академии наук"”, Доклады Академии Наук, № 5, 2017, 531  crossref
  2. A. S. Boldyrev, V. G. Zvyagin, “Attractors for Model of Viscoelastic Media with Memory Motion in Non-Autonomous Case”, Lobachevskii J Math, 40, № 7, 2019, 918  crossref
  3. V. Zvyagin, “Attractors theory for autonomous systems of hydrodynamics and its application to Bingham model of fluid motion”, Lobachevskii J Math, 38, № 4, 2017, 767  crossref
  4. V. G. Zvyagin, A. V. Zvyagin, “Pullback Attractors for a Model of Polymer Solutions Motion with Rheological Relation Satisfying the Objectivity Principle”, J Math Sci, 248, № 5, 2020, 600  crossref
  5. V. G. Zvyagin, M. V. Turbin, “Existence of Attractors for Approximations to the Bingham Model and Their Convergence to the Attractors of the Initial Model”, Sib Math J, 63, № 4, 2022, 699  crossref
  6. Victor Zvyagin, Stanislav Kondratyev, “Pullback attractors of the Jeffreys–Oldroyd equations”, Journal of Differential Equations, 260, № 6, 2016, 5026  crossref
  7. A. V. Zvyagin, “Uniform Attractors for Non-Autonomous Systems of Nonlinearly Viscous Fluid”, Lobachevskii J Math, 44, № 3, 2023, 956  crossref
  8. A. V. Zvyagin, V. G. Zvyagin, “Pullback attractors for a model of weakly concentrated aqueous polymer solution motion with a rheological relation satisfying the objectivity principle”, Dokl. Math., 95, № 3, 2017, 247  crossref
  9. V. G. Zvyagin, S. K. Kondratyev, “Pullback attractors for a model of motion of weak aqueous polymer solutions”, Dokl. Math., 90, № 3, 2014, 660  crossref
  10. V G Zvyagin, S K Kondrat'ev, “Pullback attractors for the model of motion of dilute aqueous polymer solutions”, Izv. Math., 79, № 4, 2015, 645  crossref
1
2
Следующая