Fatigue Life Prediction of Composites and Composite Structures

<p>1. Introduction to the fatigue life prediction of composite materials and structures: past, present and future prospects</p> <p>Part I Fatigue life behavior and modeling<br>2. Phenomenological fatigue analysis and life modelling<br>3. Residual strength fatigue theories for composite materials<br>4. Creep/fatigue/relaxation of angle-ply GFRP composite laminates<br>5. Fatigue behavior of nanoparticle-filled fibrous polymericcomposites<br>6. High-temperature fatigue behavior of woven-ply thermoplastic composites<br>7. Fatigue behavior of thick composite laminates<br>8. Fatigue damage and lifetime prediction of fiber-reinforced ceramic-matrix composites<br>9. Fatigue behaviors of fiber-reinforced composite 3D printing<br>10. Computational intelligence methods for the fatigue life modeling of composite materials</p> <p>Part II Fatigue life prediction and monitoring<br>11. Fatigue life prediction under realistic loading conditions<br>12. Fatigue life prediction of composite materials under constant amplitude loading<br>13. Prediction of fatigue crack initiation in UD laminates under different stress ratios<br>14. A progressive damage mechanics algorithm for life prediction of composite materials under cyclic complex stress<br>15. Stiffness-based approach to fatigue life prediction of composite materials<br>16. The fatigue damage evolution in the load-carrying composite laminates of wind turbine blades</p> <p>Part III Applications<br>17. Probabilistic fatigue life prediction of composite materials<br>18. Computer tools for the fatigue life prediction of composite materials and structures<br>19. Fatigue life prediction of wind turbine rotor blades<br>20. In-situ fatigue damage analysis and prognostics of composite structures based on health monitoring data</p>