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2019 Jiggering-Casting Project of Medalta 66 Mug
A cereal bowl jigger mold made using 3D printing
Beer Bottle Master Mold via 3D Printing
Better Porosity Clay for Brown Sugar Savers
Build a kiln monitoring device
Celebration Project
Coffee Mug Slip Casting Mold via 3D Printing
Comparing the Melt Fluidity of 16 Frits
Cookie Cutting clay with 3D printed cutters
Evaluating a clay's suitability for use in pottery
Make a mold for 4-gallon stackable calciners
Make Your Own Pyrometric Cones
Making a high quality ceramic tile
Making a Plaster Table
Making Bricks
Making our own kilns posts using a hand extruder
Making your own sieve shaker for slurries
Medalta Ball Pitcher Slip Casting Mold via 3D Printing
Medalta Jug Master Mold Development
Mold Natches
Mother Nature's Porcelain - Plainsman 3B
Mug Handle Casting
Nursery plant pot mold via 3D printing
Pie-Crust Mug-Making Method
Plainsman 3D, Mother Nature's Porcelain/Stoneware
Project to Document a Shimpo Jiggering Attachment
Roll, Cut, Pull, Attach Handle-making Method
Slurry Mixing and Dewatering Your Own Clay Body
Testing a New Load of EP Kaolin
Using milk as a glaze

Properties

A property in this context is a created physical phenomenon in a glaze or body that can be achieved in a variety of ways (called mechanisms). For example, there are a number of ways to suspend a glaze slurry, a number of mechanisms of glaze opacify or body plasticity, a number of ways to achieve a specific glaze color, etc. Whether a mechanism is physical or chemical, we need to understand all the options to choose a suitable one for a specific application.

Consider an example: If we define 'glaze color' as a property, then we can attach a 'glaze color mechanism' to the oxide chrome, specify 'pink' as the detail and explain how the mechanism works. Likewise, to alumina oxide we can attach a glaze color property noting that with chrome, manganese, and cobalt it can achieve pink colors. Now if we search for the specific instance of pink in the glaze color property in this area we will find these two mechanisms listed. You will not fully appreciate the potential of this until you really need to produce a specific effect and this area makes you aware of a way to do it that you never considered or even thought existed.

Another example is opacification, most people are not aware of how many ways there are to opacify glazes. This area makes it easy to browse all the mechanisms, evaluate the tradeoffs and select the best one (or combination).

Related Information

Links

Articles Understanding Ceramic Oxides
Fired glazes are composed of oxide building blocks. Each of the oxides contributes different properties to the fired glaze and interacts with others in different ways. Understanding these gives you control.
Glossary Co-efficient of Thermal Expansion
The co-efficient of thermal expansion of ceramic bodies and glazes determines how well they fit each other and their ability to survive sudden heating and cooling without cracking.
Glossary Rheology
In ceramics, this term refers to the flow and gel properties of a glaze or body suspension (made from water and mineral powders, with possible additives, deflocculants, modifiers).
Glossary Plasticity
Plasticity (in ceramics) is a property exhibited by soft clay. Force exerted effects a change in shape and the clay exhibits no tendency to return to the old shape. Elasticity is the opposite.
Glossary Opacifier
Glaze opacity refers to the degree to which it is opaque. Opacifiers are powders added to transparent ceramic glazes to make them opaque.
Glossary Vitrification
The term vitrified refers to the fired state of a piece of porcelain or stoneware. Vitrified ware has been fired high enough to impart a practical level of strength and durability for the intended purpose.
Glossary Matte Glaze
Random material mixes that melt well overwhelmingly want to be glossy, creating a matte glaze that is also functional is not an easy task.
Glossary Deflocculation
Deflocculation is the magic behind the ceramic casting process, it enables slurries having impossibly low water contents and ware having amazingly low drying shrinkage
By Tony Hansen
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