Lectures related to Mechanics of Fracture: Introduction and Applications

Fracture Mechanics: Stress Intensity Factor

Explores stress intensity factor in fracture mechanics, crack propagation prediction, and material ténacité.

Fracture Mechanics: Crack Growth and Stress Intensity Factor

Explores crack growth, stress intensity factor, and fracture toughness in materials.

Fracture and Toughness of Materials

Covers stress intensity, fracture, and toughness of materials, including the behavior of ductile and brittle materials.

Ceramics: Slow Cracking and Corrosion

Explores slow cracking, corrosion in ceramics, sabering champagne bottles, and material fracture mechanics.

Fracture Mechanics: Defects and Energy

Explores fracture mechanics, defects, stress factors, and energy release in material fracture.

Fracture Mechanics: Exercises Review

Covers exercises on fracture mechanics, stress factors, and material behavior.

Fracture Mechanics: Introduction and Crack Growth Analysis

Covers the basics of fracture mechanics, including crack shape and growth analysis.

Fracture Mechanics: Basic Concepts

Covers the basics of fracture mechanics, including fracture energy, stress intensity factor, and crack propagation analysis.

Fracture of Materials: Revision

Covers fracture mechanics, stress intensity factor, rubber testing, and high-speed testing in materials.

Fracture and Toughness of Materials

Explores fracture, toughness, and crack propagation in materials, emphasizing surface energy and material resistance.

Mechanical Tests: Creep and Fracture Mechanics

Explores creep tests, deformation, and fracture mechanics in mechanical tests.

Crack Tip Plasticity in Materials

Explores crack tip plasticity in materials, emphasizing the importance of the plastic zone in crack resistance.

Materials Fatigue: Fracture and Toughness

Explores fatigue, fracture toughness, stress intensity, and crack propagation in materials.

Fracture Mechanics: Concepts and Applications

Covers fundamental concepts of fracture mechanics and material failure analysis.

Fracture Mechanics: Stress Intensity Factor and Crack Growth

Explores stress intensity factors, crack-tip energy dissipation, and the effect of cracks on modulus in fracture mechanics.

Structural Mechanics: Basics and Applications

Covers the basics of structural mechanics, including forces, materials behavior, and failure mechanisms, along with advanced topics and a historical overview.

Toughness of Materials

Covers the concept of toughness of materials, emphasizing resistance to crack propagation and plastic deformation.

Fracture Mechanics: Cohesive Zone Modeling

Explores crack-tip energy dissipation, cohesive zone modeling, stress intensity, and small-scale yielding in fracture mechanics.

Fracture Mechanics: Elliptical Cracks

Analyzes elliptical cracks in materials under different loading modes and discusses the influence of stress state and material toughness.

Fracture Mechanics: High-Speed Testing

Explores high-speed fracture testing and the importance of kinetic effects in fracture mechanics.