Alternate Names: Spherocobaltite, CoCO3, Cobalt(II) carbonate
|If this formula is not unified correctly please contact us.|
|DENS - Density (Specific Gravity)||4.1|
|GSPT - Frit Softening Point||Co3O4 D|
A pinkish tan powder. It is a strong colorant and almost always produces blue in glazes (unless in very high percentages where it is black). Cobalt carbonate is an extremely active melter (even more than cobalt oxide), in a mix of 50% Ferro frit 3134 it will boil at cone 6. The carbonate form of cobalt is very fine grained and disperses better in the glaze slurry and the glaze melt, it gives a more evenly distributed color than cobalt oxide. However, as with any carbonate, it produces gases as it decomposes and these can cause pinholes or blisters in glazes if they need to escape at the time when the glaze needs to solidify. The carbonate form contains less CoO (63% CoO vs. commercial cobalt oxide which is not actually 100% CoO but around 93%).
Supplies of this material often differ in the shade of the raw powder (lighter and darker). This is because available grades of Cobalt Carbonate are not actually CoCO3 but a mix of the carbonate and the hydroxide. Cobalt II carbonate theoretically would have the formula: CoCO3.3Co(OH)2.H2O.
The theoretical oxide form has 93% CoO while this has 63%. So if you want to switch from the oxide to the carbonate in a recipe, multiply by 93 and divide by 63. To switch from carbonate to oxide multiply by 63 and divide by 93. But remember that this will be approximate (for reasons discussed above and on the cobalt oxide page), you will likely need to fine tune the amount based on fired results. In addition, the quality of the color may be different. Consider using a stain as a better solution.
Manufacturer information sheets often quote the percentage of Co instead of CoO (thus a lower amount in the range of 45-47%. Trace elements like Ni, Fe, Mn, Cu, Zn, Pb and Mg are quoted but none are in large enough amounts to worry about in ceramics. Na can be 0.5%. Products are sold based on Co content, higher purity grades may have only 1 or 2% higher Co content. Particle size can be about 2.5 microns.
The carbonate is produced from a liquid reaction between cobalt II acetate and sodium carbonate to produce red violet crystals that are recovered by filtration. The material is insoluble in cold water but will decompose in hot water.
Metallic oxides with 50% Ferro frit 3134 in crucibles at cone 6ox. Chrome and rutile have not melted, copper and cobalt are extremely active melters. Cobalt and copper have crystallized during cooling, manganese has formed an iridescent glass.
This glaze has a significant amount of cobalt carbonate and during cooling the excess is precipitating out into pink crystals during cooling in the kiln. This effect is unwanted because in this case since it produces an unpleasant surface and color (the photo does not clearly show how pink it is). This problem can be fixed by a combination of cooling the kiln faster, increasing the Al2O3 content in the glaze (it stiffens the melt and prevents crystal growth) or firing lower.
Cobalt carbonate (top) and copper carbonate (bottom). Left is the raw powder plastic-formed into a sample (with 2% veegum). Right: fired to 1850F. The CuCO3 is quickly densifying over the past 100 degrees and should begin to melt soon. It is long past the fuming stage.
Out Bound Links
The hazards of cobalt materials in the ceramic industry and process
In Bound Links
Cobalt(II) oxide, Cobaltosic Oxide, CoO, cobaltous oxide