Lectures related to Ceramic Forming Methods: Drying & Binder Removal

Powder Treatment: Rheology, Mixing, Granulation

Covers powder treatment, rheology, mixing, granulation, and cement production in ceramic processing, emphasizing flow behavior and superplasticizers.

Ceramic Processing Exam Overview

Covers the ceramic processing exam format, sample questions, and key concepts in ceramic characteristics and processing methods.

Ceramic Forming Methods: Drying & Binder Removal

Explores ceramic forming methods, emphasizing drying, binder removal, and additive manufacturing techniques for ceramics.

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 Forming Methods: Drying & Binder Removal

Explores ceramic forming methods like dry pressing and slip casting.

Rheology of Suspensions

Explores the rheology of suspensions, covering viscosity, particle interactions, and dynamic effects.

Powder Treatment: Rheology, Mixing and Granulation

Explores rheology, mixing, and granulation processes in powder treatment for ceramics and superplasticizers in suspensions.

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.

In-Wheel Motor Assembly: Formula Student Race Car

Delves into designing an in-wheel Formula Student wheel assembly for enhanced performance and sustainability.

Springs: Typical Functions

Covers the typical functions of springs, including exerting precise forces, storing and releasing energy, and filtering vibrations.

Suspension Design: Carbon Monocoque

Covers the redesign of a Formula Student race car's suspension system.

Mixing Properties of Infinite Measure Preserving Systems

Explores mixing properties of infinite measure preserving systems, focusing on suspensions, Govers transformations, and Lorentz gas.

Deformation and Creep in Materials

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

Suspension Design for EPFL Racing Team

Discusses the design of a high-performance suspension system for a formula student race car, emphasizing teamwork and technical skills.

Calculating Prestressing in Concrete Bridges

Discusses calculating prestressing in concrete bridges, considering relaxation, shrinkage, and creep effects for optimal design.

Ceramic Powders: Shaping and Granulation Techniques

Explores shaping and granulation techniques for ceramic powders, including spray atomization and fitness methods.

Ceramic Processing Fundamentals

Explores ceramic processing fundamentals, including sintering mechanisms, shaping techniques, and the importance of powder characterization.

Mechanical Tests: Creep and Fracture Mechanics

Explores creep tests, deformation, and fracture mechanics in mechanical tests.

Lost Wax Process and Croning Method

Covers the lost wax process and the Croning method for non-permanent molds.

Ceramic Powders: Fragmentation Operations

Explores ceramic powder transformation through fragmentation operations, particle rupture mechanisms, and interparticle forces like van der Waals forces.