8 citations to https://www.mathnet.ru/rus/sjim1125
  1. Mikhail Turbin, Anastasiia Ustiuzhaninova, “Trajectory and Global Attractors for the Kelvin–Voigt Model Taking into Account Memory along Fluid Trajectories”, Mathematics, 12:2 (2024), 266  crossref
  2. M. V. Turbin, A. S. Ustiuzhaninova, “Solvability of an Initial–Boundary Value Problem for the Modified Kelvin–Voigt Model with Memory along Fluid Motion Trajectories”, Diff Equat, 60:2 (2024), 180  crossref
  3. А. С. Устюжанинова, “Равномерные аттракторы модели Бингама”, Изв. вузов. Матем., 2024, № 8, 65–80  mathnet  crossref
  4. Victor Zvyagin, Mikhail Turbin, “Weak solvability of the initial-boundary value problem for inhomogeneous incompressible Kelvin–Voigt fluid motion model of arbitrary finite order”, J. Fixed Point Theory Appl., 25:3 (2023)  crossref
  5. V. G. Zvyagin, A. S. Ustiuzhaninova, “Pullback Attractors of the Bingham Model”, Diff Equat, 59:3 (2023), 377  crossref
  6. Mikhail Turbin, Anastasiia Ustiuzhaninova, “Pullback attractors for weak solution to modified Kelvin-Voigt model”, EECT, 11:6 (2022), 2055  crossref
  7. М. В. Турбин, А. С. Устюжанинова, “Сходимость аттракторов аппроксимации к аттракторам модифицированной модели Кельвина–Фойгта”, Ж. вычисл. матем. и матем. физ., 62:2 (2022), 330–341  mathnet  crossref  isi  scopus; M. V. Turbin, A. S. Ustiuzhaninova, “Convergence of attractors for an approximation to attractors of a modified Kelvin–Voigt model”, Comput. Math. Math. Phys., 62:2 (2022), 325–335  mathnet  crossref
  8. Ustiuzhaninova A.S., “Uniform Attractors For the Modified Kelvin-Voigt Model”, Differ. Equ., 57:9 (2021), 1165–1176  crossref  mathscinet  zmath  isi  scopus