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Lecture
Ceramic Processing: Wetting and Dispersion
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Ceramic Powders: Fragmentation Operations
Explores ceramic powder transformation through fragmentation operations, particle rupture mechanisms, and interparticle forces like van der Waals forces.
Ceramic Processing: Dispersion and Wetting
Explores the production of ceramic pastes, dispersion, wetting, surface tension, and the lotus leaf effect.
Dispersion and Van der Waals Forces
Explores dispersion production, interparticle forces, and colloidal stability.
Thermodynamics of Interfaces: Gibbs Model and Micelles
Explores the Gibbs model of interfaces and micelle formation in surfactant solutions.
Colloid Stability: DLVO Theory and Membrane Potential
Explores the DLVO theory and membrane potential to understand colloid stability and forces between charged surfaces.
Capillarity and Wetting
Explores capillarity, wetting, and surface tension, discussing contact angles, hysteresis, and wetting states.
Powder Treatment: Rheology, Mixing, and Granulation
Explores the rheology, mixing, and granulation of ceramic powders, emphasizing the importance of compound mixing and granulation methods.
Interfacial Chemistry: Introduction & Importance
Covers the basics of interfacial chemistry, including emulsions, surface tension, and the importance of interfaces in various applications.
Solid Liquid Interfaces: Young's Theorem and Cassie Equation
Explores Young's Theorem and the Cassie Equation for solid-liquid interfaces.
Ceramic and Colloidal Processing: Course Summary & Exam
Covers Ceramic and Colloidal Processing, including practical work, exercises, and an exam session via Zoom.
