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1. A Comprehensive Study of Fatigue Crack Initiation and Growth under Very High Cycle Torsional Fatigue Loading

   Abstract

   This paper investigates the fatigue behavior of smooth specimens made of VT3-1 titanium alloy under fully reversed loading conditions....

   I. S. Nikitin, A. D. Nikitin, B. A. Stratula in Physical Mesomechanics

   Article 12 October 2023
   

2. Development of an Energy-Based Experimental Method for Estimation of Fatigue Crack Evolution in Titanium Alloys

   Abstract

   This paper presents an experimental study of energy dissipation caused by fatigue crack growth in Grade 2 titanium and titanium alloys...

   A. Yu. Iziumova, A. N. Vshivkov, O. A. Plekhov in Physical Mesomechanics

   Article 08 February 2024
   

3. Experimental Quantification of Barrier Effects for Microstructural Short Fatigue Crack Propagation in Martensitic Steel

   In the scope of the underlying study, microstructurally short fatigue crack propagation was observed and analyzed in a fully martensitic...

   Kevin Koschella, Ulrich Krupp in Progress in Structural Mechanics

   Chapter 2024
   

4. Inhibitive Effects of Chromate, Molybdate, and Nitrate on Corrosion Fatigue Crack Growth Rates of AA2024-T3 in 3.5% NaCl Solution

   AA 2024-T3 aluminum alloy finds wide applications in aerospace industry due to its high strength to weight ratio, good toughness and relatively good...

   A. Z. Afif, M. N. Ilman in Proceedings of the 7th International Conference on Materials Engineering and Nanotechnology 2023 (ICMEN 2023); 04-05 Nov, Kuala Lumpur, Malaysia

   Conference paper 2024
   

5. Increasing the Fatigue Life of VT1-0 Titanium under the Influence of a Constant Magnetic Field

   Abstract

   High-cycle fatigue tests of VT1-0 titanium samples were carried out under conditions of exposure to a constant magnetic field of various...

   K. V. Aksenova, V. V. Shlyarov, ... H. M. Mohan in Technical Physics Letters

   Article 03 June 2024
   

6. Relation between Stresses for the Boundaries of Scale Levels of the Fatigue Diagram and Difference of the Meso- and Macroscale Fracture Mechanisms

   Abstract

   Statistical data analysis was performed based on the results of standard tests with metallic materials. The relation was found between the...

   A. A. Shanyavskiy, A. P. Soldatenkov in Physical Mesomechanics

   Article 21 June 2024
   

7. Numerical Modeling of Fatigue Cracks Growth in Thin Isotropic Plates Considering the Damage Accumulation History

   The two-stage model of propagation of mode I fatigue crack is constructed for thin isotropic finite plates under uniaxial symmetrical and...

   Vladislav Golub, Alla Plashchynska in Advances in Mechanics

   Chapter 2023
   

8. Effect of Electromechanical and Ultrasonic Impacts on Fatigue Performance of Titanium Alloys

   The paper presents results of fatigue tests and metallographic and fractographic analysis of the basic mechanisms extending the fatigue life of...

   V. P. Bagmutov, M. D. Romanenko, ... V. S. Zadorozhny in Russian Physics Journal

   Article 12 December 2023

9. Fatigue Resistance

   Fatigue resistance (or fatigue strength) is the property of a material that does not break down over time under the influence of changing workloads....

   Valentin Molotnikov, Antonina Molotnikova in Theoretical and Applied Mechanics

   Chapter 2023
   

10. Rolling Contact Fatigue Damage in Welded Rail Steel Joints

    Abstract

    Welded rail steel joints show a local decrease in material hardness due to both the welding process and post welding heat treatment. Severe...

    E. V. Torskaya, I. G. Goryacheva, ... E. A. Shur in Physical Mesomechanics

    Article 01 February 2023
    

11. Effect of Residual Stress, Surface Roughness, and Porosity on Fatigue Life of PBF-LB AlSi10Mg

    Fabricating metal parts with the additive manufacturing technology of laser-based powder bed fusion enables unconventional and individual geometries,...

    Lea Strauß, Günther Löwisch in Lectures Notes on Advanced Structured Materials 2

    Chapter 2024
    

12. COMPREHENSIVE MODEL FOR PREDICTING THE CRACK INITIATION AND PROPAGATION LIFE OF THE TC4 TITANIUM ALLOY CONSIDERING THE CLOSURE EFFECT

    Abstract

    Based on Haddad’s small crack theory, a new comprehensive fatigue life model of the TC4 titanium alloy is proposed through combining the...

    Hong-Song Li, Yong-Bao Liu, ... Wang-Tian Yin in Journal of Applied Mechanics and Technical Physics

    Article 01 February 2023
    

13. Determination of Fatigue Failure Parameters from the Depth of Plastic Zones Beneath the Fracture Surface

    Abstract

    Fatigue failure is the most common type of failure in aircrafts, motor vehicles, medical devices, and other engineering systems, and its...

    G. V. Klevtsov, L. R. Botvina, ... I. N. Pigaleva in Physical Mesomechanics

    Article 01 February 2023
    

14. A Mesoscale Study of Fatigue Fracture of Near β Titanium Alloy VT22 after Radial Shear Rolling with Subsequent Aging

    Abstract

    In this work the behavior of near β titanium alloy VT22 treated by radial shear rolling is studied and compared at the mesoscale level under...

    A. P. Soldatenkov, E. V. Naydenkin, ... S. V. Panin in Physical Mesomechanics

    Article 09 December 2022
    

15. Damage and Fatigue Fracture of Structural Elements in Various Cyclic Loading Modes

    Abstract

    On the basis of the previously suggested multimode two-criterion model of fatigue fracture, a method is proposed for calculating the origin...

    I. S. Nikitin, N. G. Burago, A. D. Nikitin in Mechanics of Solids

    Article 01 December 2022
    

16. Special Fatigue Fracture Behavior of Nanocrystalline Metals under Hydrogen Conditions

    Abstract

    In view of the effect of hydrogen on the mechanical behavior of nanocrystal materials, a hydrogen embrittlement model is proposed based on...

    Keke Zhao, Jiding Zhang, ... **aoyu Jiang in Mechanics of Solids

    Article 01 December 2023
    

17. Complexity of crack front geometry enhances toughness of brittle solids

    Brittle solids typically fail by growth and propagation of a crack from a surface flaw. This process is modelled using linear elastic fracture...

    **nyue Wei, Chenzhuo Li, ... John M. Kolinski in Nature Physics

    Article Open access 22 March 2024
    

18. Method for Determining the Crack Resistance of a Square Section Beam

    Simulation of a 3-point bending of a square beam located on supports by an edge but not on a flat side is carried out. The calculation is based on...

    E. E. Deryugin, A. V. Pazhin in Russian Physics Journal

    Article 02 January 2024

19. Fatigue Crack Growth of TC4 Titanium Alloy Using Acoustic Emission Technique

    In this paper, the crack propagation process of TC4 titanium alloy was studied by using acoustic emission detection technology, and the trend...

    Wenjun Zhang, Gongtian Shen, Yongna Shen in Advances in Acoustic Emission Technology

    Conference paper 2021
    

20. Fatigue and Fracture Behavior of AlSi10Mg Manufactured by Selective Laser Melting: A Review

    Abstract

    Selective laser melting (SLM) is one of the most promising metal additive manufacturing technologies. SLMed Al-Si alloys have been widely...

    Z. Jiang, J. Sun, ... G. Qian in Physical Mesomechanics

    Article 08 August 2023