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- Ceramic_chemistry abstract "Ceramic chemistry (or, more specifically, glaze chemistry) studies the relationship between the physical properties of fired ceramic glazes and their chemistry. Although ceramic technicians have long understood many of these relationships, the advent of computer software to automate the conversion from batch to formula and analysis has brought this science within the reach of many more people. Physical properties of glazes in fired products (like thermal expansion, hardness, index of refraction, color and melting temperature or range) are directly (but not solely) related to the chemistry. Properties of glass melts like viscosity and surface tension are also principally products of chemistry.Technicians in the ceramic tile, tableware, artware, pottery, sanitaryware, glass, fiberglass, bottle glass, optical and related industries all use this science.In ceramic chemistry, fired glazes are viewed as composed of oxides (examples are SiO2, Al2O3, B2O3, Na2O, K2O, CaO, Li2O, MgO, ZnO, MnO, Fe2O3, CoO). Each oxide is known to contribute specific properties to the fired glass. Materials suppliers publish chemical analyses of their products that cite percentages of these oxides as well as volatiles (oxides that burn away during firing like H2O, CO2, SO3).For example, in traditional ceramics here are some examples of what the application of ceramic chemistry can accomplish. Fix glaze defects like crazing, blistering, pin-holing, settling, clouding, leaching, crawling, marking, scratching, powdering. Substitute frits or incorporate better, cheaper materials, replace no-longer-available ones. Adjust glaze melting temperature, gloss, surface character and colour (in ceramic colour is a matter of chemistry). Identify weaknesses (e.g. proximity to volatile firing zones, use of unreliable materials) in glazes to avoid problems. Creating and optimizing base glazes to work with difficult colours or stains and for special effects dependent on opacification, crystallization or variegation. Create glazes from scratch and use native materials in the highest possible percentage.In ceramic bodies the physical properties of the final fired product are more related to the firing curve, the physical properties (e.g. particle size and shape, decomposition history) of the ingredient materials and the mineralogy and interaction between the different particle types.".
- Ceramic_chemistry wikiPageExternalLink Ceramic_chemistry.html?id=uCJDAAAAIAAJ&redir_esc=y.
- Ceramic_chemistry wikiPageExternalLink glazecalc.html.
- Ceramic_chemistry wikiPageID "18555533".
- Ceramic_chemistry wikiPageLength "3444".
- Ceramic_chemistry wikiPageOutDegree "31".
- Ceramic_chemistry wikiPageRevisionID "636409778".
- Ceramic_chemistry wikiPageWikiLink Aluminium_oxide.
- Ceramic_chemistry wikiPageWikiLink Boron_oxide.
- Ceramic_chemistry wikiPageWikiLink Calcium_oxide.
- Ceramic_chemistry wikiPageWikiLink Carbon_dioxide.
- Ceramic_chemistry wikiPageWikiLink Category:Inorganic_chemistry.
- Ceramic_chemistry wikiPageWikiLink Category:Pottery.
- Ceramic_chemistry wikiPageWikiLink Ceramic_glaze.
- Ceramic_chemistry wikiPageWikiLink Cobalt(II)_oxide.
- Ceramic_chemistry wikiPageWikiLink Crazing.
- Ceramic_chemistry wikiPageWikiLink Fiberglass.
- Ceramic_chemistry wikiPageWikiLink Frit.
- Ceramic_chemistry wikiPageWikiLink Glass.
- Ceramic_chemistry wikiPageWikiLink Glaze_defects.
- Ceramic_chemistry wikiPageWikiLink Hardness.
- Ceramic_chemistry wikiPageWikiLink Index_of_refraction.
- Ceramic_chemistry wikiPageWikiLink Iron(III)_oxide.
- Ceramic_chemistry wikiPageWikiLink Lithium_oxide.
- Ceramic_chemistry wikiPageWikiLink Magnesium_oxide.
- Ceramic_chemistry wikiPageWikiLink Manganese(II)_oxide.
- Ceramic_chemistry wikiPageWikiLink Mineralogy.
- Ceramic_chemistry wikiPageWikiLink Potassium_oxide.
- Ceramic_chemistry wikiPageWikiLink Pottery.
- Ceramic_chemistry wikiPageWikiLink Refractive_index.
- Ceramic_chemistry wikiPageWikiLink Silicon_dioxide.
- Ceramic_chemistry wikiPageWikiLink Sodium_oxide.
- Ceramic_chemistry wikiPageWikiLink Sulfur_trioxide.
- Ceramic_chemistry wikiPageWikiLink Surface_tension.
- Ceramic_chemistry wikiPageWikiLink Thermal_expansion.
- Ceramic_chemistry wikiPageWikiLink Tile.
- Ceramic_chemistry wikiPageWikiLink Viscosity.
- Ceramic_chemistry wikiPageWikiLink Water.
- Ceramic_chemistry wikiPageWikiLink Zinc_oxide.
- Ceramic_chemistry wikiPageWikiLinkText "Ceramic chemistry".
- Ceramic_chemistry hasPhotoCollection Ceramic_chemistry.
- Ceramic_chemistry wikiPageUsesTemplate Template:Citation_needed.
- Ceramic_chemistry wikiPageUsesTemplate Template:Refimprove.
- Ceramic_chemistry wikiPageUsesTemplate Template:Reflist.
- Ceramic_chemistry subject Category:Inorganic_chemistry.
- Ceramic_chemistry subject Category:Pottery.
- Ceramic_chemistry type Article.
- Ceramic_chemistry type Art.
- Ceramic_chemistry type Article.
- Ceramic_chemistry comment "Ceramic chemistry (or, more specifically, glaze chemistry) studies the relationship between the physical properties of fired ceramic glazes and their chemistry. Although ceramic technicians have long understood many of these relationships, the advent of computer software to automate the conversion from batch to formula and analysis has brought this science within the reach of many more people.".
- Ceramic_chemistry label "Ceramic chemistry".
- Ceramic_chemistry sameAs m.04g0vxf.
- Ceramic_chemistry sameAs Q5063652.
- Ceramic_chemistry sameAs Q5063652.
- Ceramic_chemistry wasDerivedFrom Ceramic_chemistry?oldid=636409778.
- Ceramic_chemistry isPrimaryTopicOf Ceramic_chemistry.