Lectures related to Ceramic Materials Processing: Techniques and Analysis

Granulation of Ceramic Suspension by Atomization

Explores the granulation of ceramic suspension through atomization and related processes such as slip casting and density measurements.

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.

Ceramic Forming Methods: Drying & Binder Removal

Explores ceramic forming methods, emphasizing particle packing, compaction, additives, ejection, and slip casting practical aspects.

Ceramic Forming Methods: Drying & Binder Removal

Explores ceramic forming methods like dry pressing and slip casting.

Particle Size Distribution Analysis: Laser Diffraction and Data Interpretation

Explores practical ceramic material techniques and laser diffraction for particle size analysis.

Ceramic Processing Fundamentals

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

Ceramic Processing: Introduction

Covers the elaboration of ceramics, quality powders, microstructure effects, and applications in various technologies.

Ceramic Powders: Shaping and Granulation Techniques

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

Integer Factorization: Quadratic Sieve

Covers the Quadratic Sieve method for integer factorization, emphasizing the importance of choosing the right parameters for efficient factorization.

Powder Treatment: Milling and Classification

Explores the milling process, wet milling advantages, transformation toughening, and particle breakage mechanisms.

Ceramic Forming Methods: Drying & Binder Removal

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

Instructional Design Document: Key Elements

Focuses on the key elements of an Instructional Design Document, covering scope, delivery, objectives, materials, stakeholders, and outline.

Instructional Design Best Practices

Covers best practices in instructional design for digital education, addressing challenges and solutions for online course design.

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 and Colloidal Processing: Course Summary & Exam

Covers Ceramic and Colloidal Processing, including practical work, exercises, and an exam session via Zoom.

Ceramic Processing: Introduction

Covers the basics of ceramic and colloidal processing, including the importance of quality powders and the unique qualities of ceramics.

Powder Treatment: Milling and Classification

Explores powder treatment through milling and classification techniques for ceramic production, covering crushing, milling, particle breakage, and powder synthesis.

Weibull Model: Random Data

Explores the Weibull model's application to random data and its significance in analyzing material strength and failure probability.

Introduction to Ceramics: Ceramics Processing Fundamentals

Covers the basics of ceramics, powder technology, and synthesis processes.

Statistical Mechanical Resistance: Ceramics

Covers statistical mechanical resistance in ceramics, including Weibull statistic and stable cracking behavior in compression.