Lectures related to Deformation and Creep in Materials

Time-Dependent Fracture in Materials

Explores the impact of rate effects on material toughness and the time-temperature equivalence in viscoelastic polymers.

Fracture and Toughness of Materials

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

Flexible Probes: Mechanics and Design

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

Materials: from Chemistry to Properties

Explores materials' behavior under stress, covering plastic deformation, elasticity, and strengthening mechanisms.

Chemistry: Atomic Structure and Thermodynamics

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

Plasticity of Materials

Explores the plasticity of materials, focusing on deformation behavior, dislocations, and mechanical properties of metals, ceramics, and polymers.

Mechanical Properties of Materials: Elastic Limit and Dislocations

Covers the elastic limit, dislocations, and plasticity mechanisms of materials.

Glass Transition: Polymer Properties

Explores glass and melting transitions in polymers, including characterization methods and specific polymer properties.

Toughness of Materials

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

Mechanical Properties of Materials: Toughness and Hardness

Explores toughness, hardness, and material properties, including critical crack length and hardness testing methods.

Mechanical Tests: Creep and Fracture Mechanics

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

Axial Constraints: Understanding Material Deformations

Discusses axial constraints and material deformations in structural engineering, focusing on stress, strain, and the behavior of materials under various loading conditions.

Material Strength and Hardness

Explores material strength, hardness, and toughness, covering ductility, plastic deformation, fracture, and hardness testing methods.

Stress and Strain: Real vs Nominal

Explores real and nominal strain rates, stress, deformation, and force in materials testing.

Lamination: Deformation, Ductility, and Dislocations

Explores lamination, ductility, plastic deformation, and dislocations in materials, emphasizing the effects of strain rate and temperature.

Materials Properties: Ductility, Hardness, Toughness

Explores materials' ductility, hardness, and toughness, covering dislocations, hardening mechanisms, and polymer behavior.

Metals and Alloys: Properties and Production

Covers stress-strain curves, specific moduli, and energy footprint of metals production.

Crystal Structures: Cubic Lattices & Miller Indices

Explores cubic crystal structures, coordination numbers, and packing factors in metals and alloys.

Fatigue of Materials: Stress and Endurance Limits

Explores stress in material fatigue, endurance limits, crack propagation, and real-world applications.

Elasticity and Material Selection

Explores measurement methods for elastic properties and material selection criteria based on density and elastic properties.