Issue |
Title |
No 1 (2013) |
Evolution of technological stress fields in cylindrical stress applying rod for optical fiber Panda-type during annealing |
|
Trufanov A.N. |
No 3 (2019) |
Simulation of residual stresses during pulsed thermo-force surface hardening |
|
Bagmutov V.P., Denisevich D.S., Zakharov I.N., Romanenko M.D., Fastov S.A. |
No 1 (2017) |
A stochastic model for the residual stresses calculation in the surface-hardened hollow cylinder under creep |
|
Radchenko V.P., Morozov A.P., Saushkin M.N. |
No 3 (2019) |
The Analysis of residual stresses in layered composites with [0°/90°] layup |
|
Bondarchuk D.A., Fedulov B.N., Fedorenko A.N., Lomakin E.V. |
No 2 (2024) |
MODELING OF PHOTOPOLYMER CURING |
|
Fedulov B.N. |
No 2 (2019) |
The Investigation of the Initial Stress-Strain State Influence on Mechanical Properties of Viscoelastic Bodies |
|
Bogachev I.V., Vatulyan A.O., Dudarev V.V., Nedin R.D. |
No 3 (2021) |
Mathematical modeling of relaxation of residual stresses in thin-walled pipelines in the delivery state and after bilateral surface hardening at creep |
|
Radchenko V.P., Berbasova T.I., Tsvetkov V.V., Saushkin M.N. |
No 1 (2019) |
Mathematical modeling of the stress-strain state in surface hardened thin-walled tubes with regard to the residual shear stresses |
|
Radchenko V.P., Pavlov V.P., Saushkin M.N. |
No 4 (2020) |
Numerical simulation of deformation and fracture of metal-matrix composites with considering residual stresses |
|
Zemlianov A.V., Evtushenko E.P., Balokhonov R.R. |
No 1 (2019) |
Investigation of the behavior of cylindrical bodies under conditions of joint tension and torsion under disproportionate loading |
|
Kryukov A.A. |
No 4 (2020) |
Analysis of the fracture toughness parameters at the free edge in layered composites |
|
Bondarchuk D.A., Fedulov B.N., Fedorenko A.N., Lomakin E.V. |
No 2 (2020) |
The method of reconstruction of residual stresses and plastic deformations in thin-walled pipelines in the delivery state and after bilateral vibro-shock surface hardening with a shot |
|
Radchenko V.P., Pavlov V.P., Berbasova T.I., Saushkin M.N. |
No 1 (2014) |
Mathematical models of growth deformation |
|
Dolganova O.Y., Lokhov V.A. |
No 1 (2020) |
The effect of surface plastic hardening technology, residual stresses and boundary conditions on the buckling of a beam |
|
Radchenko V.P., Afanaseva O.S., Glebov V.E. |
No 2 (2013) |
Residual stresses in preform of stress applying part for Panda type optical fiber with considering of technological imperfections of doping |
|
Semenov N.V., Trufanov A.N., Trufanov N.A. |
No 1 (2020) |
The Nonlinear evolutionary problem for self-stressed multilayered hyperelastic spherical bodies |
|
Lychev S.A., Lycheva T.N., Koifman K.G. |
No 4 (2014) |
Method of determining endurance limit stress of cylindrical specimens made of structural steels by residual stresses of “check test piece” |
|
Saushkin M.N., Sazanov V.P., Vakulyuk V.S. |
No 1 (2020) |
The Theoretical and experimental study of the bending of a thin substrate during electrolytic deposition |
|
Bout D.K., Bychkov P.S., Lychev S.A. |
No 1 (2015) |
Investigation of surface plastic hardening anisotropy influence on residual stresses distribution in hollow and solid cylindrical specimens |
|
Radchenko V.P., Pavlov V.P., Saushkin M.N. |
No 4 (2019) |
Elastoplastic deformation of a rotating hollow cylinder with a rigid casing |
|
Prokudin A.N., Firsov S.V. |
No 1 (2016) |
A mathematical modeling and experimental study of forming and relaxation of the residual stresses in plane samples made of EP742 alloy after the ultrasonic hardening under the high-temperature creep conditions |
|
Radchenko V.P., Saushkin M.N., Bochkova T.I. |
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