All Stories

  1. Fatigue strength of new explosively welded steel-aluminum transition joint used in ships
  2. Fractographic-fractal dimension correlation with crack initiation and fatigue life for notched aluminium alloys under bending load
  3. Special Issue “Fracture Mechanics and Fatigue Damage of Materials and Structures”
  4. Non-local volumetric approach to analysis defect's shape influence on specimens durability subjected to bending and torsion
  5. Influence of various heat treatments on fatigue crack growth in 42CrMo4 steel under mixed modes I + II and I + III
  6. The energy approach to fatigue crack growth of S355 steel welded specimens subjected to bending
  7. Fracture Mechanics and Fatigue Design in Metallic Materials
  8. Limited Stress Surface Model for Bending and Torsion Fatigue Loading with the Mean Load Value
  9. Fatigue Crack Growth Behaviour and Role of Roughness-Induced Crack Closure in CP Ti: Stress Amplitude Dependence
  10. Fatigue crack growth under mixed-mode I + II and I + III in heat treated 42CrMo4 steel
  11. Fatigue Crack Growth in Welded S355 Samples Subjected to Bending Loading
  12. A fractographic study exploring the fracture surface topography of S355J2 steel after pseudo-random bending-torsion fatigue tests
  13. Evaluation of multiaxial high-cycle fatigue criteria under proportional loading for S355 steel
  14. Fatigue failure assessment of S355J2G1W structural steel under biaxial in- and out of phase loading regarding geometrical constraints of samples
  15. Metallographic and Mechanical Research of the O–Ti2AlNb Alloy
  16. Cyclic Tests of Smooth and Notched Specimens Subjected to Bending and Torsion Taking into Account the Effect of Mean Stress
  17. Surface cracks growth in aluminum alloy AW-2017A-T4 under combined loadings
  18. Cumulation of Failure and Crack Growth in Materials
  19. The Effect of Mean Load for S355J0 Steel with Increased Strength
  20. Surface topography analysis based on fatigue fractures obtained with bending of the 2017A-T4 alloy
  21. The influence of heat treatment on the behavior of fatigue crack growth in welded joints made of S355 under bending loading
  22. Impact of Cryogenic Treatment on HCF and FCP Performance of β-Solution Treated Ti-6Al-4V ELI Biomaterial
  23. Study of the Fatigue Crack Growth in Long-Term Operated Mild Steel under Mixed-Mode (I + II, I + III) Loading Conditions
  24. Fracture curves for mixed modes loading
  25. The development of fatigue cracks in metals
  26. Mechanics, Fatigue, and Fracture of Structural Joints
  27. The Influence of Heat Treatment Parameters on the Cracks Growth under Cyclic Bending in St-Ti Clad Obtained by Explosive Welding
  28. Fatigue crack growth in welded S355 specimens subjected to combined loadings
  29. Numerical simulation of fatigue crack growth in steel-aluminium transition joint
  30. Fatigue tests of materials with the controlled energy parameter amplitude
  31. Mixed mode (I+II, I+III) fatigue crack growth description in S355/P355NL1 steel
  32. Energy response of S355 and 41Cr4 steel during fatigue crack growth process
  33. Wyznaczanie wielkości krytycznych odporności na pękanie stali i złączy spawanych
  34. Experimental and numerical investigation of mixed mode I + II and I + III fatigue crack growth in S355J0 steel
  35. Badania zmęczeniowe łącznika spawalniczego stal-aluminium z międzywarstwą tytanu
  36. Komputerowe symulowanie procesu spawania przy zginaniu z wykorzystaniem oprogramowania Marc/Mentat
  37. Trwałość teowych połączeń spawanych wykonanych ze stali S355 przy cyklicznym zginaniu ze skręcaniem z uwzględnieniem obróbki cieplnej
  38. Wpływ długotrwałej obróbki cieplnej na trwałość zmęczeniową bimetalu cyrkon-stal
  39. Wpływ wyżarzania normalizującego na własności statyczne i zmęczeniowe materiałów platerowanych do zastosowań w instalacjach geotermalnych
  40. Test of fatigue crack growth in welded specimens subjected to bending
  41. Numerical Analysis of Stress Intensity Factor in Specimens with Different Fillet Geometry Subjected to Bending
  42. Fatigue life of clad 254SMO, 316L and SAF2507 steels
  43. Influence of the Notch Radius on Fatigue Crack Propagation in Beam Specimens of 2017A-T4 Alloy
  44. Fatigue crack growth in 2017A-T4 alloy subjected to proportional bending with torsion
  45. Crack growth of explosive welding zirconium-steel bimetal subjected to cyclic bending
  46. Wpływ wyżarzania normalizującego na rozwój pęknięć zmęczeniowych oraz właściwości materiałów platerowanych stopami niklu
  47. Static and fatigue tests of bimetal Zr-steel made by explosive welding
  48. Energy description of fatigue crack growth process - theoretical and experimental approach
  49. Mixed mode I/II/III fatigue crack growth in S355 steel
  50. OCENA STOPNIA ZUŻYCIA ZESPOŁU WENTYLATORA NA PODSTAWIE POMIARU I ANALIZY DRGAŃ ŁOŻYSK
  51. STANOWISKO DO BADAŃ ZMĘCZENIOWYCH MATERIAŁÓW PRZY ZGINANIU ZE SKRĘCANIEM
  52. Influence of the Microstructure on the Fatigue Cracks Growth in the Joint Zirconium-Steel Made by Explosive Welding
  53. Cracks growth in S355 steel under cyclic bending with fillet welded joint
  54. Influence of Fillet Welded Joints Subjected to Cyclic Bending on Fatigue Crack Growth in S355 Steel
  55. Professor Ewald Macha’s contribution to the development of methods for multiaxial fatigue life estimation
  56. Analysis of Crack Growth Path under Simple and Mixed-Mode Loading in Specimens with Rectangular Section
  57. The Influence of the Specimen Shape on the Fatigue Life under Bending
  58. Badania połączeń spawanych poddanych wahadłowemu zginaniu
  59. Rozwój pęknięć przy cyklicznym zginaniu dla różnych materiałów platerowanych wybuchowo
  60. Fatigue Crack Growth in Specimens with Rectangular Section under Torsion and Bending with Torsion
  61. Comparison of the Experimental Results of the Calculation for Various Models of the Energy Parameter
  62. Development of fatigue cracks in specimens with fillet welded joint under cyclic bending
  63. Numerical Analysis of Stress and Strain in Specimens with Rectangular Cross-Section Subjected to Torsion and Bending with Torsion
  64. Fatigue Tests of Bimetal Zirconium-steel Made by Explosive Welding
  65. Testing of specimens with fillet welds under variable bending
  66. Influence of microstructure on fatigue crack propagation under bending in the alloy Ti-6Al-4V after heat treatment
  67. Models of initiation fatigue crack paths proposed by Macha
  68. Influence of control parameters on the crack paths in the aluminum alloy 2024 under bending
  69. Trwałość zmęczeniowa bimetalu cyrkon-stal w aspekcie charakterystyki złącza
  70. Bending fatigue tests on PA6 and PA7 alloys in the non-hardened and in precipitation hardened condition
  71. Crack Growth Path in Specimens with Rectangular Section under Bending with Torsion
  72. Fatigue and crack growth
  73. Survey of Formulas Used to Describe the Fatigue Crack Growth Rate
  74. Metody nieniszczące w badaniach połączeń spawanych wirnika wentylatora; Non-destructive methods in the tests on welded joints of the rotor fan
  75. Rozwój pęknięć przy cyklicznym zginaniu w złączu cyrkon-stal powstałych w wyniku zgrzewania wybuchowego; Cracks growth under cyclic bending in zirconium-steel joint made by explosive welding
  76. Wpływ temperatury wygrzewania na trwałość zmęczeniową w bimetalach stal-tytan otrzymanych metodą zgrzewania wybuchowego; The effect of annealing temperature on the fatigue life in bimetals steel-titanium made by explosive welding
  77. Energy Fatigue Characteristic of C45 Steel Subjected to Cyclic Bending
  78. Fatigue Crack Growth in Titanium Alloy after Hardening and Ageing
  79. Comparison of Fatigue Characteristics of Structural Materials Obtained with Energy and Stress Controlled Parameter under Bending
  80. Verification of fatigue critical plane position according to variance and damage accumulation methods under multiaxial loading
  81. Influence of the Titanium and its Alloys Microstructure on the Fatigue Crack Paths
  82. Thermal Effects while Fatigue Cracking Growth under Bending
  83. Fatigue Characteristic of Aluminium Alloy 2024 under Cyclic Bending with the Controlled Energy Parameter
  84. Influence of the Microstructure near the Interface on the Fatigue Life of Explosively Welded (Carbon Steel)/Zr Clads
  85. Crack growth rate under cyclic bending in the explosively welded steel/titanium bimetals
  86. Foreword
  87. The investigation of crack growth in specimens with rectangular cross-sections under out-of-phase bending and torsional loading
  88. Rozwój pęknięć zmęczeniowych w bimetalach stal-tytan wykonanych metodą zgrzewania wybuchowego (platerowania)
  89. Fatigue properties of notched specimens made of FeP04 steel
  90. Influence of oxygenation time on crack growth in titanium alloy under cyclic bending
  91. Fatigue crack growth in AlCu4Mg1 under nonproportional bending-with-torsion loading
  92. Crack Growth in AlCu4Mg1 Alloy under Combined Cyclic Bending and Torsion
  93. Fatigue Crack Growth Rate under Different Bending to Torsion Ratios in 10HNAP Steel
  94. Influence of Heat Treatment on Fatigue Crack Growth in Ti-6Al-4V Alloy
  95. The energy approach in the calculation of fatigue lives under non-proportional bending with torsion
  96. Analytical and numerical evaluation of stress intensity factor along crack paths in the cruciform specimens under out-of-phase cyclic loading
  97. Empirical formulas for description of the fatigue crack growth rate
  98. J-integral in the description of fatigue crack growth rate induced by different ratios of torsion to bending loading in AlCu4Mg1
  99. Influence of the slot inclination angle in FeP04 steel on fatigue crack growth under tension
  100. A survey of failure criteria and parameters in mixed-mode fatigue crack growth
  101. Control system of the fatigue stand for material tests under combined bending with torsion loading and experimental results
  102. Fatigue lives of 18G2A and 10HNAP steels under variable amplitude and random non-proportional bending with torsion loading
  103. Fatigue Crack Growth in Titanium and Aluminium Alloys under Bending
  104. Crack growth in FeP04 steel under cyclic tension for different notches on the basis of its microstructure
  105. Fatigue Crack Growth in Titanium and Aluminium Alloys under Bending
  106. Elastic-plastic fatigue crack growth in 18G2A steel under proportional bending with torsion loading
  107. ΔJ-integral range estimation for fatigue crack growth rate description
  108. Fatigue Crack Growth for Different Ratios of Bending to Torsion in AlCu4Mg1