176 results on '"Chirkov, A. Yu."'
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2. Mixed Scheme of the Finite Element Method as a Basis for Computational Analysis of Model Crack Mechanics Problems
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
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
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
6. 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
7. 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
8. 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
9. Modified Elastic Solution Processes and Interchangeable Elasticity Parameters in the Problems of Radiation Creep
10. Computational Evaluation and Analysis of Change in Shape Peculiarities of WWER-1000 Baffle Under Design and Long-Term Operation Conditions
11. Application of Refined Calculation Guidelines to the Stress-Strain State and Fracture Resistance Analysis of the NPP Primary-Circuit System Elements
12. Mixed Scheme of the Finite Element Method as a Basis for Computational Analysis of Model Crack Mechanics Problems
13. 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
14. Analysis of Irradiation Swelling and Irradiation Creep Models with the Stress Effect Account in the Problems of Inelastic Strain Mechanics. Part 2. Correctness Check of Conditions of the Constitutive Equations
15. Analysis of Irradiation Swelling and Irradiation Creep Models with the Stress Effect Account in the Problems of Inelastic Strain Mechanics. Part 1. Formulation of Constitutive Equations
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
17. Anisotropy Effect of the Mechanical Metal Properties on the Assessment of the Load-Carrying Ability of the Launch Vehicle Oxidant Tank
18. Special Features of Computational Assessment of the Change in Shape of WWER-1000 Reactor Core Baffle in View of Irradiation-Induced Swelling
19. On the Correctness of the Well-Known Mathematical Model of Irradiation-Induced Swelling with the Influence of Stresses in the Problems of Elastic-Plastic Deformation Mechanics
20. Peculiarities of the Fracture Strength Design of the Branch Pipe Zone of the Nuclear Reactor Vessel
21. 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
22. 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
23. Improving the Computational Analysis of Stress-Strain State and Fracture Resistance of Welded Joints Between Coolant Headers and PGV-1000M Steam Generator Vessel of Nuclear Power Station
24. Some Aspects of Inclusion of Loading History in the Fracture Strength Analysis of Reactor Pressure Vessels Under Thermal Shock Conditions
25. Stress-Strain State of the Coolant Collector-to-Nozzle Welded Joint in the PGV-1000M Steam Generator Under the Operating Loads with Consideration of Residual Manufacturing Stresses
26. Calculation analysis of the stress-strain state of the collector-to-nozzle weld in the steam generator under seismic loading
27. Elastoplastic Fracture Resistance Analysis of NPP Primary Circuit Equipment Elements
28. Construction of two-level integration schemes for the equations of plasticity in the theory of deformation along the paths of small curvature
29. The influence of thermomechanical loading history on the stress level in WWER NPP reactor pressure vessels under thermal shock
30. Numerical simulation of stress-strain state near crack tip in a compact tensile specimen
31. Mixed-hybrid scheme of the finite element method for solving the problems on bending, free vibration, and stability of plates
32. Application of mixed variational formulations based on the finite element method to the solution of problems on natural vibrations of elastic bodies
33. Bordering method for solving systems of linear equations generated by the finite element method in the plate bending problem
34. Mixed projection-mesh scheme of the finite-element method to solve boundary-value problems describing the non-isothermal processes of elastoplastic deformation
35. Determination of stress intensity factors for semielliptical surface cracks in the WWER-1000 reactor pressure vessel from the results of solving thermoelasticity boundary value problems based on the mixed mesh-projection scheme of the finite element method
36. Application of the mixed approximation to the solution of two-dimensional problems of the theory of small elastoplastic strains using the finite element method
37. Analysis of boundary-value problems describing the non-isothermal processes of elastoplastic deformation taking into account the loading history
38. Application of a Modified Algorithm of the Method of Conjugate Gradients in Finite-Element Analyses
39. Iteration Algorithms for Solving Boundary-Value Problems of the Theory of Small Elastic-Plastic Strains on the Basis of the Mixed Finite Element Method
40. Analysis of Boundary-Value Problems of the Theory of Small Elastoplastic Strains, which Allows for Hydrostatic Stress and Stress Deviator Type
41. Mixed projection-mesh scheme of the finite-element method for the solution of the boundary-value problems of the theory of small elastic-plastic strains
42. Construction of a Mixed FEM Approximation to Solve a Problem on Bending of a Plate on the Basis of Zienkiewicz's Triangle
43. Mixed Approximation Scheme of the Finite-Element Method for the Solution of Two-Dimensional Problems of the Elasticity Theory
44. Mixed Projection-Mesh Scheme of the Finite-Element Method for the Solution of Problems of the Elasticity Theory
45. Consideration of hydrostatic stress in problems of the deformation theory of plasticity
46. Approximate determination of the fundamental vibration frequency of plates with the aid of conformal maps
47. Selection of the relaxation coefficient in solving problems of the theory of elasticity by the method of coordinate descent
48. Convergence of the relaxation scheme during the numerical solution of edge problems of deformation plasticity
49. Determination of the intrinsic frequency and form of transverse vibrations in plates
50. Design of plate systems
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