Your search keyword '"Chirkov, A. Yu."' showing total 29 results

1. Mixed Formulation of Finite Element Method Within Toupin–Mindlin Gradient Elasticity Theory

Author

Chirkov, O. Yu., Nazarenko, L., and Altenbach, H.

Published

2024

2. Mixed Scheme of the Finite Element Method as a Basis for Computational Analysis of Model Crack Mechanics Problems

Author

Chirkov, O. Yu.

Published

2023

3. Computational Assessment of the Shape Change of the WWER-1000 Reactor Core Baffle Considering Effects of Radiation Swelling, Radiation Creep, and Subcritical Metal Damage Via Ductile Fracture Models

Author

Chirkov, O. Yu., Kharchenko, V. V., and Kravchuk, L. V.

Published

2023

4. Analysis of Radiation Creep Problems Considering Pore Growth Ductile Fracture by Rice–Tracey–Huang Models and Kachanov’s Solution for a Spherical Cavity. Part 2. Validity Check of the Governing Equations

Author

Chirkov, O. Yu.

Published

2023

5. Analysis of Radiation Creep Problems Considering Pore Growth Ductile Fracture by Rice–Tracey–Huang Models and Kachanov’s Solution for a Spherical Cavity. Part 1. Initial Preconditions and Models for the Formulation of the Governing Equations

Author

Chirkov, O. Yu.

Published

2022

6. Fokker–Planck Simulation of Fast-Ion Kinetics in Z-Pinch Implosion Taking into Account Electromagnetic Acceleration

Author

Chirkov, A. Yu., Morkhova, E. A., and Frolov, A. Yu.

Published

2022

7. Validity Analysis of Elastic-Plastic Deformation Mechanics Problems Considering the Growth of Pores in the Material Via the Rice–Tracey–Huang Models. Part 3. Generalized Rice–Tracy–Huang Equation

Author

Chirkov, O. Yu.

Published

2022

8. Validity Analysis of Elastic-Plastic Deformation Mechanics Problems Considering the Growth of Pores in the Material via the Rice–Tracey–Huang Models. Part 2. Huang’s Equation

Author

Chirkov, O. Yu.

Published

2022

9. Validity Analysis of Elastic-Plastic Deformation Mechanics Problems Considering the Growth of Pores in the Material Via the Reiss–Tracey–Huang Models. Part 1. The Reiss–Tracey Model

Author

Chirkov, O. Yu.

Published

2022

10. Modified Elastic Solution Processes and Interchangeable Elasticity Parameters in the Problems of Radiation Creep

Author

Chirkov, O. Yu.

Published

2022

11. Sources for Helium-3 Isotope Extraction and Prospects of its Development

Author

Verkhovniy, A. I., Bondarenko, V. L., Kutsko, A. G., Tokarev, S. A., Chirkov, A. Yu., Kupriyanov, M. Yu., and Ustyugova, T. G.

Published

2022

12. Computational Evaluation and Analysis of Change in Shape Peculiarities of WWER-1000 Baffle Under Design and Long-Term Operation Conditions

Author

Chirkov, O. Yu. and Kharchenko, V. V.

Published

2021

13. Application of Refined Calculation Guidelines to the Stress-Strain State and Fracture Resistance Analysis of the NPP Primary-Circuit System Elements

Author

Kharchenko, V. V., Chirkov, O. Yu., Kobel’s’kyi, S. V., Kravchenko, V. I., and Zvyagintseva, A. O.

Published

2021

14. Mixed Scheme of the Finite Element Method as a Basis for Computational Analysis of Model Crack Mechanics Problems

Author

Chirkov, O. Yu., primary

Published

2024

15. Analysis of Irradiation Swelling and Irradiation Creep Models with the Stress Effect Account in the Problems of Inelastic Strain Mechanics. Part 3. Taking into Account Accumulated Irreversible Strain in the Irradiation Swelling Model

Author

Chirkov, O. Yu.

Published

2021

16. Correction to: Validity analysis of elastic-plastic deformation mechanics problems considering the growth of pores in the material via the Rice–Tracey–Huang models. Part 3. Generalized Rice–Tracey–Huang equation

Author

Chirkov, O. Yu.

Published

2022

17. Effect of Symmetry/Asymmetry of Shear Rotation of a Plasma Column in a Radial Electric Field on the Level of Turbulent Density Fluctuations

Author

Karbushev, Dmitry N., primary and Chirkov, Alexei Yu., additional

Published

2023

18. Analysis of Radiation Creep Problems Considering Pore Growth Ductile Fracture by Rice–Tracey–Huang Models and Kachanov’s Solution for a Spherical Cavity. Part 1. Initial Preconditions and Models for the Formulation of the Governing Equations

Author

Chirkov, O. Yu., primary

Published

2023

19. Correction to: Validity analysis of elastic-plastic deformation mechanics problems considering the growth of pores in the material via the Rice–Tracey–Huang models. Part 3. Generalized Rice–Tracey–Huang equation

Author

Chirkov, O. Yu., primary

Published

2023

20. Influence of the Addition of Alumina Nanofibers on the Strength of Epoxy Resins

Author

Simunin, M. M., primary, Voronin, A. S., additional, Fadeev, Yu. V., additional, Dobrosmyslov, S. S., additional, Kuular, A. A., additional, Shalygina, T. A., additional, Shabanova, K. A., additional, Chirkov, D. Yu., additional, Voronina, S. Yu., additional, and Khartov, S. V., additional

Published

2023

21. The Limiting Fusion Gain in High-Performance Z-Pinches

Author

Chirkov, Alexei Yu., primary and Tokarev, Semion A., additional

Published

2023

22. Radiation Limit for the Energy Gain of the p– 11 B Reaction.

Author

Chirkov, Alexei Yu. and Kazakov, Kirill D.

Published

2023

23. Study of the distribution morphology of alumina nanofibers in polyester resins

Author

Simunin, M M, primary, Chirkov, D Yu, additional, Zaloga, A N, additional, Fadeev, Yu V, additional, and Kuular, A A, additional

Published

2022

24. Processing of aliphatic polymer wastes in brown coal synthesis gas

Author

Simunin, M. M., primary, Chirkov, D. Yu., additional, Bajakin, S. G., additional, Khartov, S. V., additional, and Shimanskii, A. F., additional

Published

2022

25. Features of Functionalization of the Surface of Alumina Nanofibers by Hydrolysis of Organosilanes on Surface Hydroxyl Groups

Author

Simunin, Mikhail M., primary, Voronin, Anton S., additional, Fadeev, Yurii V., additional, Mikhlin, Yurii L., additional, Lizunov, Denis A., additional, Samoilo, Alexandr S., additional, Chirkov, Dmitrii Yu., additional, Voronina, Svetlana Yu., additional, and Khartov, Stas V., additional

Published

2021

26. Features of nanocomposite powder paints spreading with the addition of aluminum oxide nanofibers

Author

Simunin, M M, primary, Chirkov, D Yu, additional, Fadeev, Yu V, additional, Voronin, A S, additional, and Samoilo, A S, additional

Published

2021

27. Calculation of thermodynamic properties of mixtures in two-phase equilibrium

Author

Luo, Taiming, primary and Chirkov, A Yu, additional

Published

2021

28. Comparative analysis of working fluids for efficient waste heat recovery

Author

Lola, D Ye, primary, Chirkov, A Yu, additional, and Borisov, Yu A, additional

Published

2021

29. Plane crack problems within strain gradient elasticity and mixed finite element implementation.

Author

Chirkov, Aleksandr Yu, Nazarenko, Lidiia, and Altenbach, Holm

Abstract

An alternative approach is proposed and applied to solve boundary value problems within the strain gradient elasticity theory. A mixed variation formulation of the finite element method (FEM) based on the concept of the Galerkin method is used. To construct finite-dimensional subspaces separate approximations of displacements, deformations, stresses, and their gradients are implemented by choosing the different sets of piecewise polynomial basis functions, interrelated by the stability condition of the mixed FEM approximation. This significantly simplifies the pre-requirement for approximating functions to belong to class C1 and allows one to use the simplest triangular finite elements with a linear approximation of displacements under uniform or near-uniform triangulation conditions. Global unknowns in a discrete problem are nodal displacements, while the strains and stresses and their gradients are treated as local unknowns. The conditions of existence, uniqueness, and continuous dependence of the solution on the problem’s initial data are formulated for discrete equations of mixed FEM. These are solved by a modified iteration procedure, where the global stiffness matrix for classical elasticity problems is treated as a preconditioning matrix with fictitious elastic moduli. This avoids the need to form a global stiffness matrix for the problem of strain gradient elasticity since it is enough to calculate only the residual vector in the current approximation. A set of modeling plane crack problems is solved. The obtained solutions agree with the results available in the relevant literature. Good convergence is achieved by refining the mesh for all scale parameters. All three problems under study exhibit specific qualitative features characterizing strain gradient solutions namely crack stiffness increase with length scale parameter and cusp-like closure effect. [ABSTRACT FROM AUTHOR]

Published

2024