Difference between revisions of "Alumina"
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− | '''Alumina''' is the chemical <math>Al_2O_3</math>, or aluminium(III) oxide. It occurs naturally as hexagonal crystals called '''corundum''', the second hardest [[mineral]] on Earth.<ref name=Cairncross>B. Cairncross - ''Field guide to rocks and minerals of Southern Africa'' 2004. ISBN 978-1-86872-985-2 pp. 80-82</ref> Used without qualification, '''aluminium oxide''' usually refers to alumina rather than the other oxides of aluminium. | + | __NOTOC__ |
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+ | '''Alumina''' is the chemical <math>Al_2O_3</math>, or [[aluminium]](III) oxide. It occurs naturally as hexagonal crystals called '''corundum''', the second hardest [[mineral]] on Earth.<ref name="Cairncross">B. Cairncross - ''Field guide to rocks and minerals of Southern Africa'' 2004. ISBN 978-1-86872-985-2 pp. 80-82</ref> Used without qualification, '''aluminium oxide''' usually refers to alumina rather than the other oxides of aluminium. Aluminium is the third most common element on Mars after Oxygen and silicon. | ||
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+ | Most aluminium on Mars is not in the form of alumina but rather in the form of alumina-silicates, such as Feldspar. Aluminium is also a component of volcanic rocks such as basalt. | ||
[[File:Alumina.jpg||200px|thumb|rigth|Top: a heap of chemically pure [[Activated_(Chemistry)|activated]] alumina. Bottom left: a sapphire. Bottom right: a ruby.]] | [[File:Alumina.jpg||200px|thumb|rigth|Top: a heap of chemically pure [[Activated_(Chemistry)|activated]] alumina. Bottom left: a sapphire. Bottom right: a ruby.]] | ||
==Characteristics== | ==Characteristics== | ||
− | The hardness of corundum by definition 9 on Mohs' scale and it has a white streak and vitreous lustre.<ref name=Cairncross />. Corundum has a specific gravity between 3.96<ref name=WebsterJobbins>R. Webster & E.A. Jobbins - ''Gemmologists' compendium'' 7th ed. 2001. ISBN 978-0-7198-0291-1 p. 36.</ref> and 4.1<ref name=Cairncross />. The different varieties have refractive indices varying from between 1.759 and 1.767 to between 1.770 and 1.779.<ref name=WebsterJobbins>R. Webster & E.A. Jobbins - ''Gemmologists' compendium'' 7th ed. 2001. ISBN 978-0-7198-0291-1 p. 36.</ref><br /> | + | The hardness of corundum by definition 9 on Mohs' scale and it has a white streak and vitreous lustre.<ref name="Cairncross" />. Corundum has a specific gravity between 3.96<ref name="WebsterJobbins">R. Webster & E.A. Jobbins - ''Gemmologists' compendium'' 7th ed. 2001. ISBN 978-0-7198-0291-1 p. 36.</ref> and 4.1<ref name="Cairncross" />. The different varieties have refractive indices varying from between 1.759 and 1.767 to between 1.770 and 1.779.<ref name="WebsterJobbins">R. Webster & E.A. Jobbins - ''Gemmologists' compendium'' 7th ed. 2001. ISBN 978-0-7198-0291-1 p. 36.</ref><br />Some corundum, including all rubies, display ''asterism'', which is to say that they reflect light in such a way as to form a six-sided star.<ref name="Cairncross" /><ref name="WebsterJobbins" /> |
− | Some corundum, including all rubies, display ''asterism'', which is to say that they reflect light in such a way as to form a six-sided star.<ref name=Cairncross /><ref name=WebsterJobbins /> | ||
==Variants== | ==Variants== | ||
The colour of a corundum crystal depends on impurities. | The colour of a corundum crystal depends on impurities. | ||
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− | == | + | *Red corundum is known as '''ruby'''. The red color of Ruby comes from an impurity of considerably less than 1% Chromic oxide. The chromium is what permits the ruby to be used for a laser, producing red light. <ref>McGRAW-HILL ENCYCLOPEDIA OF Science & Technology 8th Edition (c) 1997, vol 15, page 688.</ref> |
− | On Earth, corundum mainly occurs in [[metamorphic rock]], as well as in [[alluvial deposits]].<ref name=Cairncross /> | + | |
+ | *Blue corundum is known as '''sapphire'''. It gets its colour from iron and titanium impurities<ref name="Cairncross" /> | ||
+ | *Colourless (pure) corundum is known as '''white sapphire'''. | ||
+ | *Other varieties of corundum crystal are known by ''colour'' sapphire. These are pink, yellow, violet and green sapphire<ref name="Cairncross" />. | ||
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+ | ==Occurrence== | ||
+ | On Earth, corundum mainly occurs in [[metamorphic rock]], as well as in [[alluvial deposits]].<ref name="Cairncross" /> | ||
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+ | Alumina is commonly found in clays that were created on Mars as a result of gravity and chemical separation in the primordial oceans. | ||
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+ | ==[[In-situ resource utilization|In situ Production]]== | ||
+ | Alumina may be extracted from clays or from minerals such as Feldspar. | ||
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+ | For production from clays, Hydrochloric acid processes might be used to separate the alumina from the other elements in the clays. Aluminium trichloride in solution would be precipitated as alumina hexahydrate, then calcinated into alumina (The Orbite process). | ||
==Use== | ==Use== | ||
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− | == | + | *It is used as an [[abrasive]].<ref name="Cairncross" /> |
− | * | + | *Used in the production of [[refractory]].<ref name="Cairncross" /> |
+ | *Alumina in clay is an important component of ceramics., bricks and other building materials. | ||
+ | *Ruby [[laser|lasers]] are based around synthetic ruby crystals, portions of which are doped with [[chromium]]. | ||
+ | *Alumina is the main component of [[aluminium ore]]. | ||
+ | *Both natural and synthetic corundum is used in jewelry. | ||
+ | *As a catalyst in the [[Sabatier process]]. | ||
==References== | ==References== |
Latest revision as of 19:36, 25 May 2021
Alumina is the chemical , or aluminium(III) oxide. It occurs naturally as hexagonal crystals called corundum, the second hardest mineral on Earth.[1] Used without qualification, aluminium oxide usually refers to alumina rather than the other oxides of aluminium. Aluminium is the third most common element on Mars after Oxygen and silicon.
Most aluminium on Mars is not in the form of alumina but rather in the form of alumina-silicates, such as Feldspar. Aluminium is also a component of volcanic rocks such as basalt.
Characteristics
The hardness of corundum by definition 9 on Mohs' scale and it has a white streak and vitreous lustre.[1]. Corundum has a specific gravity between 3.96[2] and 4.1[1]. The different varieties have refractive indices varying from between 1.759 and 1.767 to between 1.770 and 1.779.[2]
Some corundum, including all rubies, display asterism, which is to say that they reflect light in such a way as to form a six-sided star.[1][2]
Variants
The colour of a corundum crystal depends on impurities.
- Red corundum is known as ruby. The red color of Ruby comes from an impurity of considerably less than 1% Chromic oxide. The chromium is what permits the ruby to be used for a laser, producing red light. [3]
- Blue corundum is known as sapphire. It gets its colour from iron and titanium impurities[1]
- Colourless (pure) corundum is known as white sapphire.
- Other varieties of corundum crystal are known by colour sapphire. These are pink, yellow, violet and green sapphire[1].
Occurrence
On Earth, corundum mainly occurs in metamorphic rock, as well as in alluvial deposits.[1]
Alumina is commonly found in clays that were created on Mars as a result of gravity and chemical separation in the primordial oceans.
In situ Production
Alumina may be extracted from clays or from minerals such as Feldspar.
For production from clays, Hydrochloric acid processes might be used to separate the alumina from the other elements in the clays. Aluminium trichloride in solution would be precipitated as alumina hexahydrate, then calcinated into alumina (The Orbite process).
Use
- It is used as an abrasive.[1]
- Used in the production of refractory.[1]
- Alumina in clay is an important component of ceramics., bricks and other building materials.
- Ruby lasers are based around synthetic ruby crystals, portions of which are doped with chromium.
- Alumina is the main component of aluminium ore.
- Both natural and synthetic corundum is used in jewelry.
- As a catalyst in the Sabatier process.
References
- ↑ 1.0 1.1 1.2 1.3 1.4 1.5 1.6 1.7 1.8 B. Cairncross - Field guide to rocks and minerals of Southern Africa 2004. ISBN 978-1-86872-985-2 pp. 80-82
- ↑ 2.0 2.1 2.2 R. Webster & E.A. Jobbins - Gemmologists' compendium 7th ed. 2001. ISBN 978-0-7198-0291-1 p. 36.
- ↑ McGRAW-HILL ENCYCLOPEDIA OF Science & Technology 8th Edition (c) 1997, vol 15, page 688.