Lectures related to Introduction to Materials Science

Metals and Alloys: Properties and Production

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

Metals and Alloys: Properties and Applications

Explores the properties, extraction, and applications of metals and alloys, including historical evolution and recycling rates.

Deformation and Creep in Materials

Explores deformation, creep, material properties, mechanical tests, ceramics, polymers, metals, and atomic bonds.

Metals: from atom to solid

Explores the properties and applications of metals, emphasizing optimization of microstructures and mechanical behaviors.

Time-Dependent Fracture in Materials

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

Energy Consumption in Material Production: Key Insights

Covers the energy consumption and carbon emissions in material production, focusing on metals and recycling processes.

Metals Recycling & Energy Model

Explores the challenges and energy aspects of metal recycling, including the composition of Earth's crust, extraction methods, and energy requirements for aluminum production.

Resource-Constrained World: Metals, Energy, and Sustainability

Explores challenges in a resource-constrained world, focusing on metals, energy, and sustainability, including recycling rates and low-tech solutions.

Materials Science: Basics and Classification

Covers the basics of materials science, including classification and selection criteria for different materials.

Fracture and Toughness of Materials

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

Mechanical Properties of Materials: Elastic Limit and Dislocations

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

Itinerant Magnetism: Kondo Effect

Explores itinerant magnetism in metals, highlighting the Kondo effect and its implications on material properties.

Materials: from Chemistry to Properties

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

Metals and Alloys: Microstructures and Transformations

Explores metals and alloys, focusing on microstructures, transformations, energy footprints, and extraction processes.

Electrical Properties Introduction

Covers the introduction to electrical properties of materials and their variations.

Plasticity of Materials

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

Introduction to Materials Science: Mechanical Engineering Fundamentals

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

Materials Science: Elasticity and Structures

Explores the properties of materials, elasticity, crystal structures, and polymers.

Metals and Alloys: Resources and Reserves

Discusses the properties of metals, ceramics, polymers, and foams, and the global extraction of metals.

Additive Manufacturing of Metals

Explores additive manufacturing of metals, covering techniques, applications, challenges, and microstructure comparisons.