Difference between revisions of "Glass"
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| − | [[File:1992.82-SC41932.jpg|thumb| | + | [[File:1992.82-SC41932.jpg|thumb|Sicilian lava vase<br>MFA Acc. #: 1992.82]] |
== Description == | == Description == | ||
| + | [[File:1993.4-SC41936.jpg|thumb|Cluthra vase<br>MFA Acc. #: 1993.4]] | ||
| + | A hard, brittle, amorphous inorganic material made by fusing [[silica]] at high temperatures with two or more metal oxides. Though rare, glass is also naturally produced by volcanic activity ([[obsidian]]), meteor strikes ([[tektite]]) and lightening strikes ([[fulgurite]]). Glass was first made in the Middle East during the 3rd millennium BCE. For glass manufacture, silica is obtained from [[sand]], [[flint]], [[quartz]] or broken bits of glass. The fusion point of silica is lowered by mixing it with one or more fluxes ([[soda ash]], [[potash]], [[lime]] and oxides of [[Lead oxide|lead]], [[Lithium oxide|lithium]], [[Cerium oxide|cerium]] etc.) Typical glass, such as soda-lime, contains about 75% silica, 15% soda and 10% lime. The components are melted to approximately 700-1000 C, then formed into various shapes by [[Blown glass|blowing]], [[Cast glass|casting]], [[Float glass|floating]], [[Pressed glass|pressing]], or [[Rolled glass|rolling]]. The glass is cooled to a rigid [[vitreous]] material. As glass ages, it can become [[crystalline]] or [[Devitrified glass|Devitrify]]. Buried glass can have an [[Iridescence|iridescent]] surface caused when the metal oxides are dissolved leaving small plates of silicic acid on the surface. Glass is normally colorless and transparent. Small amounts of inorganic materials are used to make glass colored or opaque (see [[glass colorants]]). | ||
| + | [[File:Image3_802433.jpg|thumb|Bell glass over model<br>MFA Acc. #: 32.166]] | ||
| − | + | Glasses are mixtures typically containing formers, fluxes, and stabilizers. | |
| − | + | * Formers make up the largest percentage of the melted mixture. [[Silicon dioxide]](SiO2), usually as sand, is the primary former. | |
| − | + | * Fluxes lower the temperature at which the formers will melt. Soda ([[Sodium carbonate]], Na2O) and Potash ([[Potassium carbonate]], K2O), both alkalis, are common fluxes. The fluxes, however, also weaken the glass bonds and make them more soluble in water. | |
| + | * Stabilizers make the glass strong and water resistant. Lime ([[Calcium oxide]], CaO) and/or limestone ([[Calcium carbonate]], CaCO3), are the primary stabilizers. Without a stabilizer, water and humidity will slowly attack and dissolve glass. | ||
== Synonyms and Related Terms == | == Synonyms and Related Terms == | ||
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common glass; sklo (Ces.); glas (Dan., Ned., Nor., Sven.); Glas (Deut.); vidrio (Esp.); verre (Fr.); vetro (It.); vidro (Port.); sticla (Rom.); ; Carrara® glass [PPG]; Pyrex | common glass; sklo (Ces.); glas (Dan., Ned., Nor., Sven.); Glas (Deut.); vidrio (Esp.); verre (Fr.); vetro (It.); vidro (Port.); sticla (Rom.); ; Carrara® glass [PPG]; Pyrex | ||
| − | See also: milk glass; potash glass; potash-lead glass; soda glass; | + | See also: [[agate glass]]; [[alumina glass]]; [[amber glass]]; [[basalt glass]]; [[borosilicate glass]]; [[cameo glass]]; [[canary glass]]; [[Carrara glass]]; [[case glass]]; [[crackle glass]]; [[cobalt glass]]; [[copper ruby glass]]; [[crown glass]]; [[crystal glass]]; [[cylinder glass]]; [[dichroic glass]]; [[Favrile glass]]; [[flash glass]]; [[flint glass]]; [[frosted glass]]; [[gold ruby glass]]; [[green glass]]; [[heat-resistant glass]]; [[iridescent glass]]; [[lead glass]]; [[Luxfer prism glass]]; [[milk glass]]; [[opal glass]]; [[optical glass]]; [[plate glass]]; [[potash glass]]; [[potash-lead glass]]; [[safety glass]]; [[silica glass]]; [[soda glass]]; [[stained glass]]; [[structural glass]]; [[tempered glass]]; [[Tiffany glass]]; [[water glass]]; [[window glass]]; [[glass bead]]; [[glass fabric]]; [[glass fiber]]; [[glass paper]]; [[glass rot]]; [[glass wool]]; [[Glazing comparison (Clear plastic sheets)|glazing]]; [[microballoon]] |
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[[[SliderGallery rightalign|YG95 glass.TIF~FTIR (MFA)]]] | [[[SliderGallery rightalign|YG95 glass.TIF~FTIR (MFA)]]] | ||
| + | == Applications == | ||
| + | * Cases, windows, facades, mirrors, lights | ||
| + | * Insulation, reinforcement, decoration | ||
| + | * Bottles, containers, tableware | ||
| + | * Optical cables, computer screens | ||
| − | == | + | == Physical and Chemical Properties == |
| − | Insoluble in all solvents except hydrofluoric acid. | + | * Insoluble in all solvents except hydrofluoric acid. |
| + | * Fracture = conchoidal | ||
| + | * Warm to touch compared to minerals | ||
| − | {| class="wikitable" | + | {| class="wikitable" |
| + | |- | ||
| + | ! Type of Glass | ||
| + | ! Properties | ||
| + | ! Applications | ||
| + | ! Chemical composition (wt%) | ||
| + | ! Density at 20 °C, [g/cm3], x1000 to get [kg/m3] | ||
| + | ! Refractive index nD[8] at 20 °C | ||
| + | |- | ||
| + | | Soda–lime glass | ||
| + | | Most common and least expensive; high light transmission; chemically stable; resistant to abrasion, resistant to electrical current | ||
| + | | Windows, glassware | ||
| + | | 74 SiO2, 13 Na2O, 10.5 CaO, 1.3 Al2O3, 0.3 K2O, 0.2 SO3, 0.2 MgO, 0.01 TiO2, 0.04 Fe2O3 | ||
| + | | 2.52 | ||
| + | | 1.518 | ||
|- | |- | ||
| − | + | | Borosilicate (Pyrex, Duran) | |
| − | | | + | | High optical quality, broad range of light transmission (UV, Vis, NIR); resistant to thermal shock, thermal expansion and cracks |
| + | | Optical windows, mirror, filters, display glass, imaging techniques | ||
| + | | 81 SiO2, 12.5 B2O3, 4 Na2O, 2.2 Al2O3, 0.02 CaO, 0.06 K2O | ||
| + | | 2.235 | ||
| + | | 1.473 | ||
| + | |- | ||
| + | | Glass wool | ||
| + | | Fluffy blanket or pad of glass fibers; high thermal insultation | ||
| + | | Filtration, thermal insulationm(batting, pipe wrapping); ceiling tiles; decorative media | ||
| + | | 63 SiO2, 16 Na2O, 8 CaO, 3.3 B2O3, 5 Al2O3, 3.5 MgO, 0.8 K2O, 0.3 Fe2O3, 0.2 SO3 | ||
| + | | 2.55 | ||
| + | | 1.531 | ||
| + | |- | ||
| + | | Optical glass (lead crystal) | ||
| + | | A clear, flawless glass with a very controlled refractive index; may be cooled slowly or annealed to minimize distortions | ||
| + | | Lenses, microscopes, telescopes, binoculars, cameras, prisms, or other imaging techniques | ||
| + | | 41.2 SiO2, 34.1 PbO, 12.4 BaO, 6.3 ZnO, 3.0 K2O, 2.5 CaO, 0.35 Sb2O3, 0.2 As2O3 | ||
| + | | 3.86 | ||
| + | | 1.65 | ||
| + | |- | ||
| + | | Fused silica | ||
| + | | Very pure; low thermal expansion, Excellent opticals properties including high transmission in the UV | ||
| + | | Instrument components, optical plates, pressure windows | ||
| + | | SiO2 | ||
| + | | 2.2 | ||
| + | | 1.459 | ||
|} | |} | ||
| − | == | + | ==Resources and Citations == |
| − | + | * Corning Museum of Glass: [https://www.cmog.org/article/chemistry-glass Chemistry of Glass] | |
| − | + | * Gem Identification Lab Manual, Gemological Institute of America, 2016. | |
| − | + | * R.Hummel, ''Understanding Materials Science: History, Properties, Applications'', Springer, New York, 1998. | |
| − | + | * K.Cummings, "Glass", ''The Dictionary of Art,'' Grove's Dictionaries, New York, 1996. | |
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* ''Encyclopedia Britannica'', http://www.britannica.com Comment: glass" [Accessed October 17, 2001]. gives date as 2500 BC in History of Glassmaking entry | * ''Encyclopedia Britannica'', http://www.britannica.com Comment: glass" [Accessed October 17, 2001]. gives date as 2500 BC in History of Glassmaking entry | ||
| − | + | * Wikipedia: [https://en.wikipedia.org/wiki/Glass Glass] (Accessed Jan. 2006 and Oct. 2023) | |
| − | * Wikipedia | ||
| − | |||
* R. J. Gettens, G.L. Stout, ''Painting Materials, A Short Encyclopaedia'', Dover Publications, New York, 1966 | * R. J. Gettens, G.L. Stout, ''Painting Materials, A Short Encyclopaedia'', Dover Publications, New York, 1966 | ||
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* ''Dictionary of Building Preservation'', Ward Bucher, ed., John Wiley & Sons, Inc., New York City, 1996 | * ''Dictionary of Building Preservation'', Ward Bucher, ed., John Wiley & Sons, Inc., New York City, 1996 | ||
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* Tom Rowland, Noel Riley, ''A-Z Guide to Cleaning, Conserving and Repairing Antiques'', Constable and Co., Ltd., London, 1981 | * Tom Rowland, Noel Riley, ''A-Z Guide to Cleaning, Conserving and Repairing Antiques'', Constable and Co., Ltd., London, 1981 | ||
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* Michael McCann, ''Artist Beware'', Watson-Guptill Publications, New York City, 1979 | * Michael McCann, ''Artist Beware'', Watson-Guptill Publications, New York City, 1979 | ||
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* Jack Odgen, ''Jewellery of the Ancient World'', Rizzoli International Publications Inc., New York City, 1982 | * Jack Odgen, ''Jewellery of the Ancient World'', Rizzoli International Publications Inc., New York City, 1982 | ||
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* Susan E. Schur, Conservation Terminology: A review of Past & Current Nomenclature of Materials, ''Technology and Conservation'', Spring (p.34-39); Summer (p.35-38); Fall (p.25-36), 1985 | * Susan E. Schur, Conservation Terminology: A review of Past & Current Nomenclature of Materials, ''Technology and Conservation'', Spring (p.34-39); Summer (p.35-38); Fall (p.25-36), 1985 | ||
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* ''CRC Handbook of Chemistry and Physics'', Robert Weast (ed.), CRC Press, Boca Raton, Florida, v. 61, 1980 Comment: density for common glass=2.4-2.8; flint glass=2.9-5.9 | * ''CRC Handbook of Chemistry and Physics'', Robert Weast (ed.), CRC Press, Boca Raton, Florida, v. 61, 1980 Comment: density for common glass=2.4-2.8; flint glass=2.9-5.9 | ||
| − | [[Category:Materials database]] | + | [[Category:Materials database]][[Category: MWG]][[Category:Glazing]] |
Latest revision as of 14:07, 23 October 2023
Description
A hard, brittle, amorphous inorganic material made by fusing Silica at high temperatures with two or more metal oxides. Though rare, glass is also naturally produced by volcanic activity (Obsidian), meteor strikes (Tektite) and lightening strikes (Fulgurite). Glass was first made in the Middle East during the 3rd millennium BCE. For glass manufacture, silica is obtained from Sand, Flint, Quartz or broken bits of glass. The fusion point of silica is lowered by mixing it with one or more fluxes (Soda ash, Potash, Lime and oxides of lead, lithium, cerium etc.) Typical glass, such as soda-lime, contains about 75% silica, 15% soda and 10% lime. The components are melted to approximately 700-1000 C, then formed into various shapes by blowing, casting, floating, pressing, or rolling. The glass is cooled to a rigid Vitreous material. As glass ages, it can become Crystalline or Devitrify. Buried glass can have an iridescent surface caused when the metal oxides are dissolved leaving small plates of silicic acid on the surface. Glass is normally colorless and transparent. Small amounts of inorganic materials are used to make glass colored or opaque (see Glass colorants).
Glasses are mixtures typically containing formers, fluxes, and stabilizers.
- Formers make up the largest percentage of the melted mixture. Silicon dioxide(SiO2), usually as sand, is the primary former.
- Fluxes lower the temperature at which the formers will melt. Soda (Sodium carbonate, Na2O) and Potash (Potassium carbonate, K2O), both alkalis, are common fluxes. The fluxes, however, also weaken the glass bonds and make them more soluble in water.
- Stabilizers make the glass strong and water resistant. Lime (Calcium oxide, CaO) and/or limestone (Calcium carbonate, CaCO3), are the primary stabilizers. Without a stabilizer, water and humidity will slowly attack and dissolve glass.
Synonyms and Related Terms
common glass; sklo (Ces.); glas (Dan., Ned., Nor., Sven.); Glas (Deut.); vidrio (Esp.); verre (Fr.); vetro (It.); vidro (Port.); sticla (Rom.); ; Carrara® glass [PPG]; Pyrex
See also: Agate glass; Alumina glass; Amber glass; Basalt glass; Borosilicate glass; Cameo glass; Canary glass; Carrara glass; Case glass; Crackle glass; Cobalt glass; Copper ruby glass; Crown glass; Crystal glass; Cylinder glass; Dichroic glass; Favrile glass; Flash glass; Flint glass; Frosted glass; Gold ruby glass; Green glass; Heat-resistant glass; Iridescent glass; Lead glass; Luxfer prism glass; Milk glass; Opal glass; Optical glass; Plate glass; Potash glass; Potash-lead glass; Safety glass; Silica glass; Soda glass; Stained glass; Structural glass; Tempered glass; Tiffany glass; Water glass; Window glass; Glass bead; Glass fabric; Glass fiber; Glass paper; Glass rot; Glass wool; glazing; Microballoon
Applications
- Cases, windows, facades, mirrors, lights
- Insulation, reinforcement, decoration
- Bottles, containers, tableware
- Optical cables, computer screens
Physical and Chemical Properties
- Insoluble in all solvents except hydrofluoric acid.
- Fracture = conchoidal
- Warm to touch compared to minerals
| Type of Glass | Properties | Applications | Chemical composition (wt%) | Density at 20 °C, [g/cm3], x1000 to get [kg/m3] | Refractive index nD[8] at 20 °C |
|---|---|---|---|---|---|
| Soda–lime glass | Most common and least expensive; high light transmission; chemically stable; resistant to abrasion, resistant to electrical current | Windows, glassware | 74 SiO2, 13 Na2O, 10.5 CaO, 1.3 Al2O3, 0.3 K2O, 0.2 SO3, 0.2 MgO, 0.01 TiO2, 0.04 Fe2O3 | 2.52 | 1.518 |
| Borosilicate (Pyrex, Duran) | High optical quality, broad range of light transmission (UV, Vis, NIR); resistant to thermal shock, thermal expansion and cracks | Optical windows, mirror, filters, display glass, imaging techniques | 81 SiO2, 12.5 B2O3, 4 Na2O, 2.2 Al2O3, 0.02 CaO, 0.06 K2O | 2.235 | 1.473 |
| Glass wool | Fluffy blanket or pad of glass fibers; high thermal insultation | Filtration, thermal insulationm(batting, pipe wrapping); ceiling tiles; decorative media | 63 SiO2, 16 Na2O, 8 CaO, 3.3 B2O3, 5 Al2O3, 3.5 MgO, 0.8 K2O, 0.3 Fe2O3, 0.2 SO3 | 2.55 | 1.531 |
| Optical glass (lead crystal) | A clear, flawless glass with a very controlled refractive index; may be cooled slowly or annealed to minimize distortions | Lenses, microscopes, telescopes, binoculars, cameras, prisms, or other imaging techniques | 41.2 SiO2, 34.1 PbO, 12.4 BaO, 6.3 ZnO, 3.0 K2O, 2.5 CaO, 0.35 Sb2O3, 0.2 As2O3 | 3.86 | 1.65 |
| Fused silica | Very pure; low thermal expansion, Excellent opticals properties including high transmission in the UV | Instrument components, optical plates, pressure windows | SiO2 | 2.2 | 1.459 |
Resources and Citations
- Corning Museum of Glass: Chemistry of Glass
- Gem Identification Lab Manual, Gemological Institute of America, 2016.
- R.Hummel, Understanding Materials Science: History, Properties, Applications, Springer, New York, 1998.
- K.Cummings, "Glass", The Dictionary of Art, Grove's Dictionaries, New York, 1996.
- Encyclopedia Britannica, http://www.britannica.com Comment: glass" [Accessed October 17, 2001]. gives date as 2500 BC in History of Glassmaking entry
- Wikipedia: Glass (Accessed Jan. 2006 and Oct. 2023)
- R. J. Gettens, G.L. Stout, Painting Materials, A Short Encyclopaedia, Dover Publications, New York, 1966
- Dictionary of Building Preservation, Ward Bucher, ed., John Wiley & Sons, Inc., New York City, 1996
- Tom Rowland, Noel Riley, A-Z Guide to Cleaning, Conserving and Repairing Antiques, Constable and Co., Ltd., London, 1981
- Michael McCann, Artist Beware, Watson-Guptill Publications, New York City, 1979
- Jack Odgen, Jewellery of the Ancient World, Rizzoli International Publications Inc., New York City, 1982
- Susan E. Schur, Conservation Terminology: A review of Past & Current Nomenclature of Materials, Technology and Conservation, Spring (p.34-39); Summer (p.35-38); Fall (p.25-36), 1985
- CRC Handbook of Chemistry and Physics, Robert Weast (ed.), CRC Press, Boca Raton, Florida, v. 61, 1980 Comment: density for common glass=2.4-2.8; flint glass=2.9-5.9