by Professor Leon Mishnaevsky Jr.
Training: How to create Unit Cell model of Composite
Lecture 4: Nonlinear behaviour of composite materials
Lecture 5: Damage and Fracture of Composite Materials
Lecture 6: Biological structural materials, their structures and unusual performance
Lecture 7: Bioinspired composites and their modelling
Lecture 8. Interfaces in composites and their role for performance
Lecture 9. Interface modification and structured interfaces
Lecture 10. Nanocomposites
Lecture 11. Nanocomposites: Computational modelling
Lecture 12. Self-healing composites
Lecture 13. Modelling of self-healing composites
Lecture 14. Sustainability of Composites
Lecture 15. Recycling of composites and computational modelling
Lecture 16. Repair of composites and micromechanical aspects
Lecture 17. Fatigue of composites and microstructural effects
Lecture 18. Composite structures: Example of wind turbine blades
Lecture 19. Composite structures-2: Wind turbine blades and micromechanics
Lecture 20. Manufacturing of composites and related micromechanical problems
Lecture 21. Manufacturing of composites- 2: Computational modelling
Lecture 22. Overview: What did we learn, and how it fits together?