Lectures related to Metal Hardening Mechanisms

Materials Properties: Ductility, Hardness, Toughness

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

Thermal Treatments: Dislocations, Grain Boundaries, and Hardening Mechanisms

Explores dislocations, grain boundaries, and hardening mechanisms in metals through thermal treatments and recrystallization.

Mechanisms of Metal Plasticity

Explores metal plasticity mechanisms, including hardening by solid solution and precipitation, dislocation forests, and polymer behavior in relation to temperature and deformation speed.

Mechanical Properties of Materials: Elastic Limit and Dislocations

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

Relaxation in Traction: Deformation and Hardening

Explores relaxation in traction, permanent deformation, hardening, and strain rate calculation.

Lamination: Deformation, Ductility, and Dislocations

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

Materials: from Chemistry to Properties

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

Mechanical Behavior of Polymers: Ductility and Hardening

Explores the mechanical behavior of polymers, emphasizing ductility and hardening mechanisms.

Metal Alloys: Hardening Mechanisms

Explores the modes of hardening metal alloys and their industrial implications, emphasizing the effects of dislocations and grain size.

Plasticity: Mechanisms of Metals and Polymers

Covers the plasticity mechanisms of metals and polymers, including dislocations, solid solution hardening, and work hardening.

Material Strength and Hardness

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

Deformation Part 2: Plasticity and Torsion Tests

Delves into plasticity, torsion tests, hardness techniques, and material stability criteria.

Mechanical Behavior of Materials

Explores large deformations, dislocations, grain boundaries, and material behavior under different conditions.

Introduction to Materials Science: Mechanical Engineering Fundamentals

Covers yield strength, hardness, defects, dislocations, plasticity mechanisms, and hardening in materials science for mechanical engineering.

Stress and Deformation: Understanding Material Behavior

Explores stress, strain, elasticity, plasticity, and material behavior, emphasizing the importance of dislocations and microstructure.

Taylor Impact and Shear Banding

Explains the impact of different structures on mechanical properties and introduces shear banding.

Concrete Mechanical Properties

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

Plastic Deformation and Work Hardening

Explores plastic deformation, work hardening, and strategies to reduce hardening in materials.

Mechanical Properties & Strengthening Mechanisms

Explores mechanical properties, plastic deformation, dislocations, strengthening mechanisms, and high temperature plasticity in alloys.

Plastic Deformation: Introduction to the Dislocation Model

Covers plastic deformation, dislocation model, stages, shear stress, distortion, dislocation loops, strain hardening, and crystal growth.