3D Silty Clay
3D is a high-quality body ingredient. It contains natural feldspar and quartz (so bodies based on it need no silica or feldspar). It vitrifies fully by cone 10. A 2% talc addition will vitrify it at cone 6! Mechanically, it is the cleanest (lowest in particulates and oxides of iron) and most consistent raw material we have. In the raw lump form, 3D clay weathers and slakes very readily. It is suitable as a filler where the other ingredients produce too much plasticity. It is suitable as a body base, the majority ingredient. It's low drying shrinkage (yet high dry strength) give it excellent potential in industrial applications.
3D stockpile at the Plainsman plant site
95% 3D and 5% bentonite produces a body with good plastic workability that fires very pinhole and glaze-defect-free. By itself, it dust-presses well (for tile manufacture). It works well with additions of low temperature iron-bearing clays (like Redart) and responds well to small feldspar and talc additions to achieve maturity from cone 5-10.
3D opens up the internal pore structure in the dry body matrix, this helps channel water out during drying.
3D, by itself, vitrifies to 0.5% porosity at cone 10. In oxidation it burns buff, increasing to grey-buff as temperature increases to cone 10. It fires with less reduction speckle and to a lighter buff color than any other native naturally-fluxed material we have.
Because 3D is low in gas-producing particles, glazes fire with fewer surface defects (e.g. pinholes, blisters). In fact, even the unground, slaked material produces clean glaze surfaces. Minimal processing is needed to make the lump form useful.
This material is good base for medium and high temperature body recipes. It can be the majority ingredient because it contains natural feldspar and quartz, so it only needs a plastic clay addition. For medium temperature, only a little feldspar or talc is needed. If it is processed to a finer particle size (by air separation or wet sieving) plasticity increases significantly (to the point that it can be used 100% to produce a cone 8 stoneware).
To see some example bodies that demonstrate the amazing possibilities of this material, plus more technical information, please click here.
Drying Shrinkage: 4.5-5.5% Drying Factor: B110
Sieve Analysis (Tyler mesh):
+48 (300 microns): 0.0-0.6% 48-65 (300-210 microns): 0.5-1.0 65-100 (210-149 microns): 0.5-1.5 100-150 (149-106 microns): 1.0-2.5 150-200 (106-75 microns): 3.5-5.5 200-325 (75-45 microns): 5.0-8.0
Cone 6: 3.5-4.5% Cone 8: 2.0-3.0 Cone 10: 0.3-0.9 Cone 10R: 0.2-0.7
BaO 0.4 CaO 0.2 K2O 2.6 MgO 0.5 Na2O 0.1 TiO2 0.6 Al2O3 16.3 P2O5 0.0 SiO2 71.5 Fe2O3 1.1 MnO 0.0 LOI 6.6%
This mug is made from 100% 3D. It was screened to 325 mesh, this produces a dense stoneware that is smoother even than refined porcelains. By cone 8 it fires to porcelain density. Wet processing to 325 mesh is relatively easy since the material is naturally very fine, about 10-20% oversize is lost in this process.
How is it possible for the same body to work well at both cone 04 and 6! White cone 04 bodies are not vitreous and strong and neither is this. But it is plastic, smooth and fits common low fire glazes. How? 15% Nepheline Syenite (also 50% Plainsman 3D, 35% ball clay and 3% bentonite). The unmelted nepheline particles impose their higher thermal expansion on the fired ceramic. Spectrum 700 clear glaze does not craze and does not permit the entry of water (the mug is glazed across the bottom and fired on a stilt). The mug on the right is made from the same clay, it has been fired ten cones higher, cone 6! Here the nepheline is acting as a flux, producing a dense and very strong stoneware (with G2926B, GA6-B glazes). This is incredible! One note: This cannot be deflocculated and used for casting, soluble salts in the 3D gel the slurry.
Safety Data SheetClick here for web view.
|Plainsman Clays Ltd.|
702 Wood Street, Medicine Hat, Alberta T1A 1E9
Phone: 403-527-8535 FAX:403-527-7508