Lectures related to Diffusion: Atomic Movement and Material Evolution

Covers the concept of diffusion in materials science and its various applications.

Explores the effects of temperature on materials, including thermal expansion and conductivity.

Phase Transformations in Al-Cu Alloys: Microstructure and Kinetics

Covers the Al-Cu binary system, focusing on phase transformations and their impact on microstructure and mechanical properties.

Cyclic Deformation and Recrystallization

Explores cyclic deformation, dislocation structures, fatigue resistance, and recrystallization kinetics.

Sintering Basics: Solid State Grain Growth & Microstructures

Explores the fundamentals of sintering in ceramics, covering matter transport mechanisms, stages of sintering, and microstructure evolution.

Introduction to Materials Science: Diffusion Phenomena

Explores the diffusion of atoms in materials and its impact on various processes, such as solidification and semiconductor doping.

Diffusion in Alloys: General Metals & Solute

Explores diffusion in alloys, emphasizing general metals and solutes, including empirical correlations and mechanisms of solute diffusion.

Titanium Alloys: Properties and Applications

Explores the properties and applications of titanium alloys, including aerospace and racing car uses, biocompatibility for implants, and crystal structures.

Metal Processing: Understanding Steel Production and Properties

Discusses the extraction and processing of iron, focusing on steel production and its properties.

The Superalloys: Alloy Design and Properties

Explores the design and properties of Ni-base superalloys, emphasizing strength and creep resistance.

Diffusion of Matter: Atoms and Heat

Delves into the diffusion of matter, atoms, and heat in materials.

Defects in Crystals: Point Defects and Dislocations

Explores point defects and dislocations in crystals, highlighting their impact on material properties and the importance of energy relaxation.

Thermal Diffusion in Materials

Covers thermal expansion, conductivity, and diffusion in materials, explaining how temperature affects properties and heat transfer.

Mechanical Properties & Strengthening Mechanisms

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

A Random Walk Through Random Materials

Explores random materials, solutes, and their impact on mechanical performance, including strength, toughness, and fatigue.

Magnetic Properties of Materials

Explores magnetic and electrical properties, atomic diffusion, and thermal characteristics of materials.

Chemistry: Atomic Structure and Thermodynamics

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

Heterodiffusion in Solids

Explores heterodiffusion, including electrolyte diffusion in liquids and solids, autodiffusion, and factors influencing diffusion rates.

Thermal Treatments: Dislocations, Grain Boundaries, and Hardening Mechanisms

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

Autodiffusion in Metals

Explores autodiffusion in metals, covering temperature and pressure influence, empirical correlations, and different metal structures.