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| A - Fundamentals, physics and mechanisms |
| A.01 - Atomistic aspects of fracture |
| A.02 - Micromechanisms of fatigue and fracture |
| A.03 - Creep fracture, creep fatigue interaction |
| A.04 - Environmentally enhanced effects |
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| B - Methods, concepts and materials |
| B.01 - Concepts and criteria in fracture mechanics |
| B.02 - High cycle fatigue crack growth (mixed mode, ... |
| B.03 - Low cycle fatigue crack growth |
| B.04 - Computational methods for fracture analyses |
| B.05 - Damage mechanics |
| B.06 - Fracture mechanics testing |
| B.07 - Fracture of ceramics and glass |
| B.08 - Fracture mechanics of polymers and elastomers |
| B.09 - Fracture of smart materials |
| B.10 - Fracture and damage of advanced cementitious ... |
| B.11 - Fracture of Biomaterials (bone, wood,…) |
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| C - Applications to components and structures |
| C.01 - Structural durability of components and struc... |
| C.02 - Structural Integrity, Failure analyses case s... |
| C.03 - Failure and Reliability of Micro- and Nanoele... |
| C.04 - Fracture of weldments, joints and adhesives |
| C.05 - Damage and fatigue in aerospace materials and... |
| C.06 - Fracture and damage in geotechnique, rock and... |
| C.07 - Thin films and coatings |
| C.08 - Non-destructive examination and health monito... |
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