Ag2O | AlF3 | As2O3 | As4O6 | Au2O3 | BaF2 | BeO | CaF2 | CdO | CeO2 | CrO3 | Cs2O | Cu2O | CuCO3 | Dy2O3 | Er2O3 | Eu2O3 | F | Fr2O | Free SiO2 | Ga2O3 | GdO3 | GeO2 | HfO2 | HgO | Ho2O3 | In2O3 | IrO2 | KF | KNaO | La2O3 | Lu2O3 | Mn2O3 | MnO2 | MoO3 | N2O5 | NaF | Nb2O5 | Nd2O3 | NiO | OsO2 | P2O5 | Pa2O5 | PbF2 | PdO | PmO3 | PO4 | Pr2O3 | PrO2 | PtO2 | RaO | Rb2O | Re2O7 | RhO3 | RuO2 | Sb2O3 | Sb2O5 | Sc2O3 | Se | SeO2 | Sm2O3 | Ta2O5 | Tb2O3 | Tc2O7 | ThO2 | Tl2O | Tm2O3 | U3O8 | UO2 | WO3 | Y2O3 | Yb2O3 | ZrO
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|GSPT - Frit Softening Point||1957C (From The Oxide Handbook)|
Most often used to modify and soften the color of other metallic oxides and thus small amounts are normally employed.
It is not normally used in low fire glazes due to the refractory nature of nickel oxide powder. Glazes that are already matte or immature will thus be made more dry by the addition of nickel.
Since nickel is used in smaller amounts, flashing from other glazed ware and the chemistry of the glaze can have an effect on ware color.
Glaze Color - Yellow
In lithium glazes nickel can produce yellow.
Glaze Color - Green
In the presence of high MgO, nickel can produce greens. Zinc is also helpful to develop color.
Glaze Color - Blue
Nickel with zinc oxide can produce steel blues. With larger amounts of zinc, lavender blue can be made.
Glaze Color - Tan
Nickel with calcium can produce tan.
Glaze Color - Brown
Nickel with barium can produce brown. In high sodium glazes it can fire brown also.
Glaze Color - Grey
Nickel in lead glazes tends to produce grey colors.
Glaze Color - Pink
Nickel can produce pinks in high potash or lead glazes.
All common traditional ceramic base glazes are made from only a dozen elements (plus oxygen). Materials decompose when glazes melt, sourcing these elements in oxide form. The kiln builds the glaze from these, it does not care what material sources what oxide (assuming, of course, that all materials do melt or dissolve completely into the melt to release those oxides). Each of these oxides contributes specific properties to the glass. So, you can look at a formula and make a good prediction of the properties of the fired glaze. And know what specific oxide to increase or decrease to move a property in a given direction (e.g. melting behavior, hardness, durability, thermal expansion, color, gloss, crystallization). And know about how they interact (affecting each other). This is powerful. And it is simpler than looking at glazes as recipes of hundreds of different materials (each sources multiple oxides so adjusting it affects multiple properties).
Out Bound Links
Ni2O3, Nickelic Oxide, Nickel sesquioxide, Nickel (III) oxide, Nickel Oxide
NiO, Nickelous oxide, Green Nickel Oxide, Nickel(II) oxide