ECF26: Roma 2028

Gruppo Italiano Frattura

IGF - Alloys: Shape Memory Alloys - Alloys: Sintered Alloys - Alloys: Steels - Alloys: Super alloys - Alloys: Ti alloys - Analytical, computational and physical Models - Biomaterials - Cement and mortars - Ceramics - Composites - Concrete - Creep - Damage mechanics - Environmentally Assisted Fracture & Hydrogen Embrittlement - Failure Analysis, Case Studies and Forensic Engineering - Fatigue & Fatigue crack growth - Fractography and Advanced Metallography - Fracture and Fatigue at Atomistic and Molecular Scales - Fracture and fatigue testing systems - Fracture under Mixed-Mode and Multiaxial Loading

- Fracture vs. Gradient Mechanics - Functionally graded materials - Fundamentals of cohesive zone models - High and Very High Cycle Fatigue - High-entropy materials - History of Fracture Mechanics and Fatigue - Impact and Dynamics - Linear and Nonlinear Fracture Mechanics - Low Cycle Fatigue - Materials mechanical behavior and image analysis - Mesomechanics of Fracture - Micromechanisms of Fracture and Fatigue - Multi-physics and multi-scale modelling of cracking in heterogeneous materials - Multiscale Experiments and Modeling - Nanomaterials - Nondestructive Examination

- Physical Aspects of Brittle Fracture - Physical Aspects of Ductile Fracture - Polymers - Probabilistic Fracture Mechanics - Reliability and Life Extension of Components - Repair and retrofitting: modelling and practical application - Rocks - Sandwiches, Joints and Coatings - Smart Materials - Structural Integrity - Thin Films - Wood

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