Issue |
Title |
No 4 (2020) |
Damage development under very-high-cycle fatigue regime |
|
Nikitin I.S., Nikitin A.D., Stratula B.A. |
No 4 (2017) |
Determination of the critical plane and assessment of fatigue durability under various cyclic loading regimes |
|
Nikitin I.S., Burago N.G., Nikitin A.D., Yakushev V.L. |
No 1 (2013) |
Very-high-cycle fatigue facture of titanium compressor disks |
|
Burago N.G., Zhuravlev A.B., Nikitin I.S. |
No 3 (2019) |
The Assessment of Fatigue Durability and Critical Plane Determination for Multiaxial Cyclic Loading at an Arbitrary Shift of Phases |
|
Burago N.G., Nikitin I.S., Nikitin A.D., Stratula B.A. |
No 1 (2022) |
Analysis of multiaxial fatigue models based on the results of biaxial tests for aluminum alloys |
|
Gabe A.A., Wildeman V.E., Yankin A.S. |
No 4 (2016) |
Anisotropy of material fatigue properties and its effect on durability of structural elements |
|
Burago N.G., Nikitin I.S., Yushkovsky P.A., Yakushev V.L. |
No 1 (2019) |
Mechanical behavior of X15CrNi12-2 structural steel under biaxial low-cycle fatigue at normal and elevated temperatures |
|
Lomakin E.V., Tretyakov M.P., Ilinykh A.V., Lykova A.V. |
No 3 (2019) |
The Modeling of the Edge Fatigue Crack Growth under High Frequency Loading |
|
Nikitin A.D., Nikitin I.S., Stratula B.A. |
No 3 (2023) |
REGULARITIES OF FATIGUE FAILURE TYPICAL COMPOSITE FLANGE |
|
Solomonov D.G., Sazhenkov N.A., Konev I.P., Toropicina A.V., Nikhamkin M.S. |
No 4 (2018) |
Influence of the biaxial loading regimes on fatigue life of 2024 aluminum alloy and 40CrMnMo steel |
|
Wildemann V.E., Tretyakov M.P., Staroverov O.A., Yankin A.S. |
No 3 (2022) |
Cycle life prediction under low cycle fatigue using nonlinear Marco - Starkey model |
|
Lykova A.V., Ilinykh A.V., Wildemann V.E. |
No 1 (2019) |
Development of the Digital Image Correlation Method to Study Deformation and Fracture Processes of Structural Materials |
|
Lyubutin P.S., Panin S.V., Titkov V.V., Eremin A.V., Sunder R. |
No 4 (2016) |
Analysis on cyclic deformation and low-high-cycle fatigue in uniaxial stress state |
|
Bondar V.S., Danshin V.V., Alkhimov D.A. |
No 2 (2020) |
Nonlinear dynamics and stages of damage of Ti6Al4V and Ti45Nb titanium alloys in very high cycle fatigue |
|
Bannikov M.V., Oborin V.A., Bilalov D.A., Naimark O.B. |
No 1 (2014) |
The fatigue life-time propagation of the connection elements of long-term operated hydro turbines considering material degradation |
|
Larin O.O., Trubayev O.I., Vodka O.O. |
No 6 (2023) |
METHOD OF ESTIMATING PLASTIC DEFORMATION DISTRIBUTIONS AT THE FATIGUE CRACK TIP BASED ON THE SOLUTION OF LINEAR ELASTICITY THEORY |
|
Vshivkov A.N., Iziumova A.Y., Panteleev I.A., Plekhov O.A. |
No 2 (2020) |
A variant of the thermoplasticity theory for monotonic and cyclic processes of nonisothermal loads |
|
Bondar V.S., Abashev D.R., Fomin D.Y. |
No 6 (2023) |
FATIGUE SENSITIVITY OF GFRP UNDER PROPORTIONAL CYCLIC TENSION WITH TORSION |
|
Wildemann V.E., Staroverov O.A., Mugatarov A.I., Kuchukov A.M. |
No 2 (2013) |
Experimental study of fatigue life of aluminum alloy in tension with torsion |
|
Safonov I.V., Tretyakov M.P., Vildeman V.E. |
No 2 (2013) |
Experimental study of fractal properties of fatigue crack growth and energy dissipation in crack tip |
|
Bannikov M.V., Fedorova A.Y., Terekhina A.I., Plekhov O.A. |
No 3 (2022) |
Low-cycle fatigue of V-notched cylindrical samples of bronze alloy |
|
Abashev D.R. |
No 2 (2015) |
Fractal analysis of fracture surface of aluminum alloy AMg6 under fatigue and dynamic loading |
|
Oborin V.A., Bannikov M.V., Bayandin Y.V., Sokovikov M.A., Bilalov D.A., Naimark O.B. |
No 3 (2018) |
Application of speckle dynamics and Raman light scattering to study the fracture features of pipe steel at high-cycle fatigue |
|
Vladimirov A.P., Ponosov Y.S. |
No 4 (2015) |
Experimental investigation of defects influence on composites sandwich panels strength using digital image correlation and infrared thermography methods |
|
Lobanov D.S., Wildemann V.E., Spaskova E.M., Chikhachev A.I. |
No 2 (2022) |
About preliminary statistical processing of information on the study of fatigue strength of machine parts |
|
Kulagin A.V., Russkih E.V. |
No 3 (2018) |
Fatigue crack growth kinetic on steels under variable amplitude loading |
|
Savkin A.N., Sunder R., Badikov K.A., Sedov A.A. |
No 3 (2015) |
Researching stages of destruction of titanium alloys during highand gigacycle fatigue by analyzing morphology of fracture surfaces |
|
Bannikov M.V., Oborin V.A., Naimark O.B. |
No 1 (2019) |
New Paradigms in Metals Fatigue Description |
|
Shanyavskiy A.A., Soldatenkov A.P. |
No 3 (2016) |
Evaluation of service life of heat-resistant alloys under cyclic thermomechanical loading |
|
Volkov I.A., Igumnov L.A. |
No 3 (2021) |
Crack growth in rotor P2M steel at elevated temperature |
|
Shlyannikov V.N., Kosov D.A., Fedorenkov D.I., Zhang X.C., Tu S.T. |
No 1 (2019) |
Lifetime of AMg6 Alloy under Consecutive Shock-Wave and Gigacycle Loading |
|
Oborin V.A., Bannikov M.V., Bayandin Y.V., Naimark O.B. |
No 4 (2016) |
Algorithms for numerical simulation of structures deformation and fracture within relations of damaged medium mechanics |
|
Gorokhov V.A., Kazakov D.A., Kapustin S.A., Churilov Y.A. |
No 4 (2020) |
Estimating of mechanical stresses, plastic deformations and damage by means of acoustic anisotropy |
|
Belyaev A.K., Polyanskiy V.A., Tretyakov D.A. |
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