Lectures related to Fatigue: Material Response to Repeated Stress

Mechanical Behavior of Materials: Deformation & Fatigue

Explores deformation mechanisms, cyclic loading, and fatigue phenomena in materials.

Chemistry: Atomic Structure and Thermodynamics

Covers atomic structure, thermodynamics, material properties, and ideal gas law.

Materials Fatigue: Fracture and Toughness

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

Flexible Probes: Mechanics and Design

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

Shock Waves and Brittle Material Response

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

Fatigue and Wear: Introduction to Materials Science

Introduces fatigue and wear in materials science, exploring stress variations, endurance limits, and deformation during fatigue.

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.

Fracture and Toughness of Materials

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

Fracture Mechanics: Stress Intensity Factor

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

Anisotropic Elasticity: Examples

Covers anisotropic elasticity with examples of materials having varying properties in different directions.

Material Selection: Microtechnology Design

Explores material selection criteria in microtechnology design and the influence of fatigue on material limits.

Fracture and Toughness of Materials

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

Dislocation Mechanics

Explores the mechanics of dislocations in materials, including their movement, interaction, and impact on material properties.

Comsol: Parallel plate capacitor

Focuses on modeling a parallel plate capacitor using Comsol, emphasizing clear project ideas and group collaboration.

Cost Modelling for Sustainable Innovation

Introduces cost modelling as a tool for sustainable innovation and covers topics such as transport CO2 emissions and material properties.

Sustainable Materials: Lifecycle, Properties, and Design

Explores material lifecycle, properties, sustainability, and design, emphasizing the importance of auditing products for sustainability and discussing the evaluation of consumer products like LEGO.

Deformable Bodies: Introduction to Structural Mechanics

Covers deformable bodies, stress-strain relationships, material properties, and structural failure in structural mechanics.

Building Materials: Structure and Behavior

Explores the mechanical behavior of construction materials and the impact of loading on structures.

MEMS Failure Mechanisms

Explores the failure mechanisms in MEMS devices, including creep, fatigue, and electrical failures, and discusses mitigation strategies.

Axial Loading: Stress and Strain in Deformable Bodies

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