MSE-101(a): Materials:from chemistry to properties

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Lectures in this course (103)

Explores electrical and magnetic properties of materials, including conductivity, resistivity, insulators, and dipoles in electric fields.

Wear and Tear: Friction Coefficients and Material Degradation

Explores wear and tear in materials, friction coefficients, lubrication, and wear rates.

Materials Science: Mechanical Properties

Explores plasticity, elasticity, and deformation in materials, covering tensile stages, shear modulus, and work hardening.

Mechanical Properties of Materials: Elastic Limit and Dislocations

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

Structure of Materials: Basics

Covers atomic bonding, states of matter, solid structuring, and crystalline state, including ionic, covalent, and metallic bonds.

Binary Systems: Phases and Miscibility

Explores binary systems, phases, and miscibility in different components, emphasizing the importance of understanding phase relationships.

Metal Hardening Mechanisms

Explores metal hardening mechanisms, grain boundaries, plasticity of polymers, ceramics, and hardness testing methods.

Fracture Mechanics: Stress Intensity Factor

Explores stress intensity factor in fracture mechanics, crack propagation prediction, and material ténacité.

Introduction to Materials Science: Mechanical Engineering Fundamentals

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

Binary Systems: Eutectic and Phase Diagrams

Explores eutectic in binary systems, the rule of levers, and phase diagrams.

Fatigue in Materials

Covers the concept of fatigue in materials, highlighting how repeated stress can lead to failure at lower levels than static rupture.

Fracture and Toughness of Materials

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

Fatigue of Materials: Stress and Endurance Limits

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

Fatigue of Materials: Basics and Applications

Explores material fatigue, from low-cycle to high-cycle fatigue, Wöhler curve, endurance limit, crack influence, Miner's rule, and Paris law.

Materials Science: Mechanical Properties and Material Selection

Introduces materials science, mechanical properties, and material selection for engineering applications, emphasizing the importance of material properties in design.

Friction Coefficients and Wear of Materials

Explores friction coefficients and wear mechanisms in materials due to contact-movement between surfaces.

Thermal Diffusion: Basics and Applications

Explores thermal diffusion, specific heat, conductivity, and expansion in materials, explaining how energy is transferred between atoms and molecules.

Creep Behavior at High Temperature

Explores the creep behavior of materials at high temperatures and the influence of temperature on properties like deformation rate.

Materials Science: Mechanical Properties and Case Studies

Explores mechanical properties of materials and case studies on material selection for pressure tanks.

Thermodynamics: Chemical Reactions

Covers the basics of thermodynamics, chemical reactions, energy conservation, and the laws of perfect gases.

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