Lectures related to Isotropic Continuum Damage Models

Axial Loading: Stress and Strain in Deformable Bodies

Covers axial loading, stress, strain, and their implications in deformable bodies.

Explores critical strain, bending mechanics, and strain calculation in flexible probes.

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.

Introduction to Structural Mechanics

Covers the basics of structural mechanics, including static forces, stress, strain, and structural elements like bars, cables, trusses, and beams.

Orthotropic Continuum Damage Models

Explores orthotropic continuum damage models, stress-strain behavior, crack representation, and concrete simulation.

Tensile Curve and Resistance: Material Behavior Analysis

Explores material behavior through tensile curves, resistance, and stress analysis.

Crack Tip Plasticity in Materials

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

Mechanical Testing: Tensile Properties

Explains stress-strain curves and necking phenomenon in mechanical testing.

Plasticity: Stress-Strain Behavior and Plastic Flow

Covers stress-strain behavior, plastic flow, work hardening, and dislocation motion.

Material Properties and Stress-Strain Curves

Explores material properties, stress-strain curves, stress concentration, and failure criteria in structural mechanics.

Shock Waves and Brittle Material Response

Covers shock waves, brittle material response, phase transformation, and Hugoniot relationships in materials under stress.

Smeared Crack Approach Models & Mesh Dependency

Explores smeared crack models, strain localization, and mesh dependency in structural analysis, emphasizing crack simulation hypotheses and stress-strain relationships.

Mechanical Tests: Creep and Fracture Mechanics

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

Plasticity: Tensile Ductility

Explores plasticity, tensile ductility, stress-strain curves, radiation-induced embrittlement, and necking in materials.

Concrete Mechanical Properties

Explores concrete mechanical properties, including strength, elasticity, and curing techniques.

Material Response: FCC-BCC-HCP

Explores material response to impact and strain hardening, including adiabatic shear bands and their applications.

Solid Mechanics Principles: Eigenstrains

Covers eigenstrains, deformations in a body not caused by stress, and their significance in mechanics.

Materials Properties and Limiting Behavior

Explores materials properties, failure criteria, stress-strain curves, and fracture strength.

Normal Stresses: Internal Stress and Strain

Introduces internal stress and strain, material properties, and design considerations for axial loads and direct shear.

Introduction to Structural Mechanics

Introduces key concepts in structural mechanics, such as determinate and indeterminate systems, linear superposition, and stress-strain relationships.