Lectures related to Diffusion in Alloys

Diffusion in Alloys: Phases and Interfaces

Explores diffusion in compound alloys, focusing on phase separation, interface formation, and dislocation movements.

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

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.

Thermal Treatments: Dislocations, Grain Boundaries, and Hardening Mechanisms

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

Plastic Deformation: Introduction to the Dislocation Model

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

Dislocation Movement and Recrystallization

Covers dislocation movement, obstacle effects, solute influence, and recrystallization kinetics.

Plastic Deformation and Energy Accumulation

Explores energy accumulation in materials during plastic deformation and the effects of dislocation density and heating.

Diffusion in Alloys: General Metals & Solute

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

Cyclic Deformation and Recrystallization

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

Deformation and Dislocations

Explores the sliding of dislocations in single crystals, plastic deformation, and stress fields induced by dislocations.

Microstructural Evolution in Ni Alloys

Explores the microstructural evolution, heat treatment, mechanical properties, and challenges in designing Ni superalloys and Ti alloys.

Sintering Basics: Solid State Grain Growth & Microstructures

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

Biomechanics in Organ-on-Chip Systems

Explores biomechanics in organ-on-chip systems, covering advantages, fabrication methods, mechanical stimuli, and cell analysis techniques.

Idealized Surfaces: Symmetric Tilt Grain Boundaries

Explores symmetric tilt grain boundaries, twist grain boundaries, and the atomistic view of tilt grain boundaries.

Computational Alloy Design

Explores the design of high-performance alloys, the materials development process, multi-component systems, ICME, CALPHAD approach, and experimental phase diagram investigation.

A Random Walk Through Random Materials

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

Real Surfaces Reconstructions

Explores reconstructions in real surfaces, kinetic defects, and screw dislocations in crystal growth.

Taylor Impact and Shear Banding

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

Diffusion: Atomic Movement and Material Evolution

Covers the fundamental concept of diffusion in materials, emphasizing atomic movement and its impact on material properties and evolution.

Diffusion in Alloys: Diluted and Binary Alloys

Explores diffusion in diluted and binary alloys, phase separation, and the impact of concentration on intermolecular forces.