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Lecture
Ceramic Processing Exam Overview
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Related lectures (29)
Powder Treatment: Rheology, Mixing, and Granulation
Explores the rheology, mixing, and granulation of ceramic powders, emphasizing the importance of compound mixing and granulation methods.
Ceramic Powders: Fragmentation Operations
Explores ceramic powder transformation through fragmentation operations, particle rupture mechanisms, and interparticle forces like van der Waals forces.
Ceramic Forming Methods: Drying & Binder Removal
Explores ceramic forming methods like dry pressing and slip casting.
Ceramic and Colloidal Processing: Course Summary & Exam
Covers Ceramic and Colloidal Processing, including practical work, exercises, and an exam session via Zoom.
Powder Treatment: Rheology, Mixing and Granulation
Explores rheology, mixing, and granulation processes in powder treatment for ceramics and superplasticizers in suspensions.
Ceramic Processing: Wetting and Dispersion
Explores wetting and dispersion of ceramic powders, surface tension, additives, and microstructure control.
Ceramic Forming Methods: Drying & Binder Removal
Explores ceramic forming methods, drying kinetics, crack formation, and binder removal techniques.
Ceramic Forming Methods: Drying & Binder Removal
Explores ceramic forming methods, emphasizing drying, binder removal, and additive manufacturing techniques for ceramics.
Ceramic Processing: Introduction
Covers the basics of ceramic and colloidal processing, including the importance of quality powders and the unique qualities of ceramics.
Ceramic Processing: Introduction
Covers the elaboration of ceramics, quality powders, microstructure effects, and applications in various technologies.
Sieving of Atomized Ceramic Powder with 50 Micron Sieve
Explores ceramic materials processing, slip casting, powder flow, sieving atomized powders, suspension stability, and sedimentation volume measurement.
Mechanical Tests: Creep and Fracture Mechanics
Explores creep tests, deformation, and fracture mechanics in mechanical tests.
Colloidal Stability: DLVO Theory
Explores the DLVO theory for colloidal stability, covering zeta potential, interaction forces, and aggregation kinetics.
Ceramic Processing Fundamentals
Explores ceramic processing fundamentals, including sintering mechanisms, shaping techniques, and the importance of powder characterization.
Powder Treatment: Rheology, Mixing, Granulation
Covers powder treatment, rheology, mixing, granulation, and cement production in ceramic processing, emphasizing flow behavior and superplasticizers.
Ceramic Powders: Shaping and Granulation Techniques
Explores shaping and granulation techniques for ceramic powders, including spray atomization and fitness methods.
Ceramic Materials Processing: Techniques and Analysis
Explores ceramic materials processing techniques like laser diffraction, sieving, sedimentation testing, slip casting, and density determination.
Suspensions and Emulsions: Phenomenology
Explores suspensions, emulsions, interaction forces, stability factors, and emulsion types.
Colloid Stability: DLVO Theory and Membrane Potential
Explores the DLVO theory and membrane potential to understand colloid stability and forces between charged surfaces.
Surface Potential Measurement: Zeta Potential
Explores zeta potential measurement, DLVO theory, and colloidal stability in surface interactions and aggregation kinetics of colloidal suspensions.
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