What Glaze Materials Contain: Oxides by Material

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Every raw material you use in a glaze recipe is a source of one or more oxides. Knowing which oxides each material supplies — and in what proportions — is what allows you to read a recipe analytically, substitute materials when something isn’t available, and troubleshoot glaze problems. This guide maps the most common studio glaze materials to the oxides they contribute.


Silica Sources

Silica (SiO₂) is the primary glass former in any glaze. These materials supply silica with minimal other oxides:

Material Primary Oxide Notes
Silica / Flint / Quartz SiO₂ ~100% Pure silica source; raises melting point

Alumina Sources

Alumina (Al₂O₃) is the stabilizer — it gives the molten glaze viscosity and prevents running. Most alumina sources also contribute silica:

Material Oxides Supplied Notes
EPK Kaolin Al₂O₃, SiO₂ Most common studio kaolin; adds suspension
Calcined Kaolin Al₂O₃, SiO₂ Fired kaolin; less shrinkage in raw glaze
Ball Clay Al₂O₃, SiO₂ More plastic than kaolin; adds suspension
Alumina Hydrate Al₂O₃ Pure alumina source; used for kiln wash too

Flux Sources

Fluxes lower the melting point of the glaze. Different fluxes produce different surface qualities — calcium produces a harder, more stable glaze; sodium and potassium produce brighter, glossier surfaces; magnesium produces a softer, more satin quality at high fire.

Material Flux Oxide(s) Supplied Also Supplies
Whiting (Calcium Carbonate) CaO
Wollastonite CaO SiO₂
Dolomite CaO, MgO
Talc MgO SiO₂
Zinc Oxide ZnO
Barium Carbonate BaO
Strontium Carbonate SrO
Lithium Carbonate Li₂O
Spodumene Li₂O Al₂O₃, SiO₂

Feldspars — Multi-Oxide Materials

Feldspars are the workhorses of high-fire glazes. They contribute flux (Na₂O or K₂O), alumina, and silica simultaneously, which is why a simple feldspar glaze can work with very few additional materials:

Material Oxides Supplied Notes
Potash Feldspar (Custer, G-200) K₂O, Al₂O₃, SiO₂ High potassium; standard cone 6/10
Soda Feldspar Na₂O, Al₂O₃, SiO₂ Higher sodium; glossier surface
Minspar 200 Na₂O, K₂O, Al₂O₃, SiO₂ Mixed feldspar; good casting slip flux
Nepheline Syenite Na₂O, K₂O, Al₂O₃, SiO₂ Lower silica than feldspar; melts earlier

Boron Sources

Boron (B₂O₃) is a glass former, not a flux — it lowers the melting point of the whole glaze but builds glass structure rather than acting as a flux, and is tracked separately from the fluxes in the unity formula. It’s essential for low-fire and mid-fire glazes and helps reduce crazing in cone 6 work:

Material Oxides Supplied Notes
Gerstley Borate B₂O₃, CaO, Na₂O Variable material; can cause crawling
Colemanite B₂O₃, CaO More consistent than Gerstley Borate
Frit (boron frits) B₂O₃ + other oxides Most consistent boron source; varies by frit number

Opacifiers and Modifiers

Material Oxide Effect
Tin Oxide SnO₂ Strong white opacifier; 5–10%
Zircopax / Zirconium Silicate ZrO₂, SiO₂ White opacifier; more cost-effective than tin
Titanium Dioxide TiO₂ Opacifier and crystallizing agent; can mottle
Rutile TiO₂ + FeO Texture and movement; warm tone

Related

See also: Chemical Formulas for Glaze Making, How to Normalize a Glaze Recipe, and Beginning a Glaze Pantry.

author avatar
Kevin
I am a visually impaired ceramic artist. I have been making for around 8 years now. I specialize in functional colorful pottery. Mainly nerikome and other decorative processes.

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