506 results on '"Troshchenko, V. T."'
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2. High-Cycle Fatigue of High-Temperature Alloys under Thermal Cycling Conditions
3. Conditions for the Transition from Nonlocalized to Localized Damage in Metals and Alloys. Part 3. Determination of the Transition Conditions by the Analysis of Crack Propagation Kinetics
4. Conditions for the Transition from Nonlocalized to Localized Damage in Metals and Alloys. Part 2. Duration of Fatigue Crack Initiation and Propagation Stages
5. Conditions for the Transition from Nonlocalized to Localized Damage in Metals and Alloys. Part 1. Crack Sizes at Fatigue Limit
6. Fatigue and cyclic inelasticity of austenitic steel upon long-term operation under various loading conditions
7. Fatigue limits of steels and stress gradient*
8. Cyclic inelasticity and high-cycle fatigue of metals with consideration of the stress gradient effect*
9. Strain–life curves of steels and methods for determining the curve parameters. Part 2. Methods based on the use of artificial neural networks
10. Strain–life curves of steels and methods for determining the curve parameters. Part 1. Conventional methods
11. Fatigue and inelasticity of metals under nonuniform stressed state
12. Fatigue of metals under nonuniform stressed state. part 2. methods of the analysis of research results
13. Fatigue of metals under nonuniform stressed state. Part 1. Stressed state assessment methods and results of investigation
14. Computerized data bank “Strength of Materials”
15. Scatter in the fatigue characteristics of steels and its analysis with allowance for cyclic inelastic strains
16. Cyclic strength of turbine blades made of cast nickel-based alloys
17. Strength of materials and structures: (To the Fortieth Anniversary of the Foundation of the Pisarenko Institute of Problems of Strength of the National Academy of Sciences of Ukraine)
18. Nonlocalized fatigue damage to metals and alloys
19. Nonlocalized fatigue damage of metals and alloys. Part 3. Strain and energy criteria
20. Nonlocalized Fatigue Damage of Metals and Alloys. Part 2. Interrelation between Fatigue and Inelasticity
21. Nonlocalized Fatigue Damage of Metals and Alloys. Part 1. Inelasticity, Investigation Methods, and Results
22. Some Peculiarities of Fatigue Crack Growth at Various Stages of Its Development
23. Fatigue Fracture Toughness of Metals and Alloys. Part 2. The Influence of Service and Manufacturing Factors
24. Fatigue Fracture Toughness of Metals and Alloys. Part 1. Experimental Procedures and Materials and General Principles
25. Kinetics of Fatigue Cracks under Cyclic Thermomechanical Loading
26. Fatigue-Crack Propagation in Heat-Resistant Alloys under Thermomechanical Loading. Part 2. A Method of Accounting for the Influence of Thermomechanical Loading on the Material Resistance to Fatigue-Crack Growth
27. Threshold Fatigue and Fretting Fatigue of Metals
28. Fatigue-Crack Propagation in Heat-Resistant Alloys under Thermomechanical Loading. Part 1. Experimental Method and Results of the Investigation of Crack-Propagation Rates
29. Fatigue strength and life of compressor blades for marine gas turbine engines
30. Investigation into threshold stress intensity factors of materials under cyclic loading. Report 2. Prediction of fatigue limits and fatigue crack growth
31. Procedure for the investigation of crack resistance of materials of specimens with a corner crack under cyclic loading
32. Investigation into threshold stress intensity factors of materials under cyclic loading. Report 1. Methods and experimental results
33. Prediction of fracture toughness for heat-resistant steels considering specimen dimensions. Report 4. Fracture toughness after plastic prestraining of materials with cracks
34. Prediction of fracture toughness for heat-resistant steels considering specimen dimensions. Report 2. Ductile fracture
35. Prediction of fracture toughness for heat-resistant steels considering specimen dimensions. Report 3. Brittle fracture
36. Prediction of crack resistance for heat-resistant steels taking into account the specimen size effect. Communication 1. Results of experimental investigations
37. Distinctive features of the process of deformation of materials subjected to high-cycle loading
38. The influence of surface defects on high-cycle fatigue of engineering materials
39. Fatigue strength and cyclic crack resistance of titanium alloy VT3-1 in different structural states. Communication 1. Study procedure and experimental results
40. Fatigue strength and cyclic crack resistance of titanium alloy VT3-1 in different structural states. Communication 2. Procedure for considering the effect of structure on fatigue limit
41. Estimating working life for aircraft gas turbine engine disks at the stage of fatigue crack development. Part 2
42. Estimating working life for aircraft gas turbine engine disks at the stage of fatigue crack development. Part 1
43. Fatigue resistance of high-temperature alloys under cyclic temperature variation. Report 1. Study technique and results
44. Development of a method of accounting for the effect of stress concentration and residual stress on the cyclic longevity of steel 10GN2MFA. Report 2. Prediction of cyclic longevity
45. Development of a method of accounting for the effect of stress concentration and residual stresses on the cyclic longevity of steel 10GN2MFA. Report 1. Analysis of material's stress—Strain state
46. Fatigue strength, laws of inelastic deformation, and microcrack nucleation in steel 15Kh2MFA
47. An energy criterion for fatigue failure
48. Damage accumulation in light alloys on programmed loading. Part 2. Effects of fretting corrosion
49. Damage accumulation in light alloys in programmed loading. Part 1. Stress concentration effects
50. Effect of preliminary deformation on the brittle-failure resistance of steels in the presence of cracks. Report 1. The effect of single-overload conditions
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