All articles by "Gubareva E.A."
Mathematical modelling of dielectric properties of nanostructural composites using asymptotic homogenizing method
| Authors: Dimitrienko Yu.I., Gubareva E.A., Markevich M.N., Sborschikov S.V. | Published: 16.02.2016 |
| Published in issue: #1(64)/2016 | |
| DOI: 10.18698/1812-3368-2016-1-76-89 | |
| Category: Informatics, Computer Engineering and Control | Chapter: System Analysis, Control and Information Processing | |
| Keywords: nanostructural composites, asymptotic homogenizing method, carbon nanotubes, effective inductive capacity, method of finite elements | |
Asymptotic theory of harmonic vibration of multilayer thin elastic plates
| Authors: Dimitrienko Yu.I., Gubareva E.A., Yakovlev D.O. | Published: 24.12.2015 |
| Published in issue: #6(63)/2015 | |
| DOI: 10.18698/1812-3368-2015-6-99-120 | |
| Category: Mechanics | Chapter: Mechanics of Deformable Solid Body | |
| Keywords: multilayer thin plates, asymptotic plates theory, asymptotic theory for harmonic plate vibrations, asymptotic averaging method, asymptotic expansions, local problems, finite elements method | |
Variational equations of asymptotic theory for multilayer thin plates
| Authors: Dimitrienko Yu.I., Gubareva E.A., Yurin Yu.V. | Published: 04.09.2015 |
| Published in issue: #4(61)/2015 | |
| DOI: 10.18698/1812-3368-2015-4-67-87 | |
| Category: Mechanics | Chapter: Mechanics of Deformable Solid Body | |
| Keywords: multilayer thin plates, asymptotic plate theory, asymptotic averaging method, asymptotic expansions, Lagrange variational principle, Hellinger-Reissner principle, Hermann principle | |
Modeling and Development of Three-Layer Sandwich Composite Materials with Honeycomb Core
| Authors: Dimitrienko Yu.I., Fedonyuk N.N., Gubareva E.A., Sborschikov S.V., Prozorovskiy A.A., Erasov V.S., Yakovlev N.O. | Published: 04.10.2014 |
| Published in issue: #5(56)/2014 | |
| DOI: | |
| Category: Applied Mathematics and Methods of Mathematical Simulation | |
| Keywords: sandwich honeycomb composite material, asymptotic homogenization method, multi-level structure, computer modeling, finite element method, physical and mechanical properties, four-point bending, infusion technology | |