Monthly Tech-Tip | No tracking! No ads! |
Alternate Names: Tile 6, Tile#6 Kaolin, #6 Tile kaolin
Description: Highly Plastic Fine Grained
Oxide | Analysis | Formula | |
---|---|---|---|
CaO | 0.30% | 0.01 | |
MgO | 0.40% | 0.03 | |
Na2O | 0.10% | - | |
TiO2 | 1.40% | 0.05 | |
Al2O3 | 38.10% | 1.00 | |
SiO2 | 45.50% | 2.03 | |
Fe2O3 | 0.50% | 0.01 | |
LOI | 13.50% | n/a | |
Oxide Weight | 231.04 | ||
Formula Weight | 267.10 |
#6 Tile is an air-floated highly plastic kaolin. It thus offers high green strength. No other kaolin we know of in the world even comes close to the plasticity of this material. A cone 10 porcelain can be made using a 50:25:25 recipe of this with silica and feldspar. With a small bentonite addition, bodies can be made that are plastic enough for wheel-throwing gigantic vessels. #6 tile is thus also good for suspending glazes. However, this material is relatively impermeable to water compared to other kaolins, it is thus the last choice for casting bodies.
#6 Tile kaolin fires to respectable whiteness and compares well with most other North American kaolins. It is an excellent example of one having properties that cannot be fully appreciated from numbers on a data sheet, it is only by getting your hands dirty that its properties will become truly evident.
#6 Tile kaolin has been available for many decades and the consistency has been excellent.
Particle size, % < 2 microns 60
325 mesh screen residue, % max 0.5
M.B.I. (meq/100g) 9.8
Specific Surface Area (sq-m/g) 20.0
pH, 20% solids 6.5
*The information given here is from their data sheet dated Jan 2013
#6 Tile kaolin is a "designer kaolin", they add bentonite to the material during manufacture to increase the plasticity far beyond what mother nature can make. This vase is made from the pure kaolin, it is very thin-walled and light, this would be impossible with almost any other kaolin. The fired colour is darker than some other North American kaolins but much less of this and less added bentonite is required in a recipe to get the same plasticity. Thus, in the end, a plastic porcelain body can often fire just as white using this as other whiter burning kaolins.
These mugs were fired in the same kiln load at cone 10R and have the same clear glaze, G1947U. The mug on the left is a Grolleg kaolin (52% Grolleg kaolin, 24% silica and 19% Mahavir feldspar, 5% bentonite). The one on the right is 15% M23 ball clay, 40% #6 Tile kaolin, 15% Nepheline, 25% silica, 3% bentonite. Clearly, the Grolleg porcelain fires so much whiter.
From 2022 as received at Plainsman Clays.
These test bars are fired at cone 10 reduction (top) and 10, 9 and 8 oxidation (downward) - they demonstrate the importance of measuring physical properties. The charts for each show data for drying shrinkage, firing shrinkage and porosity (water absorption). The left bars are #6 Tile kaolin and the right are EPK. These two kaolins had almost the same drying shrinkages in this SHAB test, that suggests the same plasticity. And the EPK fires whiter. So it should make a better plastic porcelain, right? Not so. In reality, #6 Tile kaolin is far more plastic - EPK requires the addition of significant bentonite to equal it (bentonite is dirty and that compromises whiteness). And EPK fires less vitreous - when feldspar is added color darkens. And, although both have extremely high firing shrinkages, the EPK is much higher than the #6 Tile (even though it is not as vitreous). Bottom line: #6 Tile is a better kaolin for clay bodies.
Materials |
Kaolin
The purest of all clays in nature. Kaolins are used in porcelains and stonewares to impart whiteness, in glazes to supply Al2O3 and to suspend slurries. |
---|---|
Typecodes |
Kaolin
Pure clay mineral, there are many brand names of varying purity and iron content. |
URLs |
https://digitalfire.com/4sight/datasheets/SDSTile6Kaolin.pdf
SDS Tile #6 Kaolin |
By Tony Hansen Follow me on |
Buy me a coffee and we can talk