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Kyanite

January 31, 2023

Kyanite is a typically blue aluminosilicate mineral, found in aluminium-rich metamorphic pegmatites and sedimentary rock. It is the high pressure polymorph of andalusite and sillimanite, and the presence of kyanite in metamorphic rocks generally indicates metamorphism deep in the Earth's crust. Kyanite is also known as disthene or cyanite.[5]

Kyanite
General
CategoryNesosilicate
Formula
(repeating unit)		Al2SiO5
IMA symbolKy[1]
Strunz classification9.AF.15
Crystal systemTriclinic
Crystal classPinacoidal (1)
(same H-M symbol)
Space groupP1
Unit cella = 7.1262(12) Å
b = 7.852(10) Å
c = 5.5724(10) Å
α = 89.99(2)°, β = 101.11(2)°
γ = 106.03(1)°; Z = 4
Identification
ColorBlue, white, rarely green, light gray to gray, rarely yellow, pink, orange, and black, can be zoned
Crystal habitColumnar; fibrous; bladed
TwinningLamellar on {100}
Cleavage[100] perfect [010] imperfect with 79° angle between
FractureSplintery
TenacityBrittle
Mohs scale hardness4.5-5 parallel to one axis
6.5-7 perpendicular to that axis
LusterVitreous to white
StreakWhite
DiaphaneityTransparent to translucent
Specific gravity3.53 - 3.65 measured; 3.67 calculated
Optical propertiesBiaxial (-); high relief
Refractive indexnα = 1.712 - 1.718 nβ = 1.720 - 1.725 nγ = 1.727 - 1.734
PleochroismTrichroic, colorless to pale blue to blue
2V angle78°-83°
References[2][3][4]

Kyanite is strongly anisotropic, in that its hardness varies depending on its crystallographic direction. In kyanite, this anisotropism can be considered an identifying characteristic, along with its characteristic blue color. Its name comes from the same origin as that of the color cyan, being derived from the Ancient Greek word κύανος. This is generally rendered into English as kyanos or kuanos and means "dark blue".

Kyanite is used as a raw material in the manufacture of ceramics and abrasives, and it is an important index mineral used by geologists to trace metamorphic zones.

Properties

 
Deep blue kyanite
 
Kyanite within quartz, Hunterian Museum, Glasgow

Kyanite is an aluminum silicate mineral, with chemical formula Al2SiO5. It is typically patchy blue in color, though it can range from pale to deep blue[6] and can also be gray or white or, infrequently, light green.[7] It typically forms sprays of bladed crystals, but is less commonly found as distinct euhedral (well-shaped) crystals, which are particularly prized by collectors.[6] It has a perfect {100} cleavage plane, parallel to the long axis of the crystal, and a second good cleavage plane {010} that is at an angle of 79 degrees to the {100} clevage plane. Kyanite also shows a parting on {001} at an angle of about 85 degrees to the long axis of the crystal.[7] Cleavage surfaces typically display a pearly luster. Crystals are slightly flexible.[6]

Kyanite's elongated, columnar crystals are usually a good first indication of the mineral, as well as its color (when the specimen is blue). Associated minerals are useful as well, especially the presence of the polymorphs of staurolite, which occur frequently with kyanite. However, the most useful characteristic in identifying kyanite is its anisotropism. If one suspects a specimen to be kyanite, verifying that it has two distinctly different hardness values on perpendicular axes is a key to identification; it has a hardness of 5.5 parallel to {001} and 7 parallel to {100}.[2][3] Thus, a steel needle will easily scratch a kyanite crystal parallel to its long axis, but the crystal is impervious to being scratched by a steel needle perpendicular to the long axis.[6]

Structure

The kyanite structure can be visualized as a distorted face centered cubic lattice of oxygen ions, with aluminium ions occupying 40% of the octahedral sites and silicon occupying 10% of the tetrahedral sites. The aluminium octahedra form chains along the length of the crystal, half of which are straight and half of which are zigzag, with silica tetrahedra linking the chains together. There is no direct linkage between silica tetraheda, making kyanite a member of the nesosilicate class of silicate minerals.[8][9]

Occurrence

 
 
Phase diagram of Al2SiO5
(aluminosilicates).[10]

Kyanite occurs in biotite gneiss, mica schist, and hornfels, which are metamorphic rocks formed at high pressure during regional metamorphism of a protolith rich in aluminium (a pelitic protolith). Kyanite is also occasionally found in granite and pegmatite[9][11] and associated quartz veins[12] and is infrequently found in eclogites. It occurs as detrital grains in sedimentary rocks, although it tends to weather rapidly.[7][11] It occurs associated with staurolite, andalusite, sillimanite, talc, hornblende, gedrite, mullite and corundum.[2]

Kyanite is one of three common minerals having the composition Al2SiO5. Minerals with identical compositions but distinct crystal structure are called polymorphs. The other polymorphs with identical composition to kyanite are andalusite and sillimanite. Kyanite is the polymorph most stable at high pressure, while andalusite is the most stable at lower temperature and pressure and sillimanite is the most stable at higher temperature and lower pressure,[13] with the three polymorphs equally stable at the triple point near 4.2 kbar and 530 °C (986 °F).[14] This makes the presence of kyanite in a metamorphic rock an indication of metamorphism at high pressure.

Kyanite is often used as an index mineral to define and trace a metamorphic zone that was subject to a particular degree of metamorphism at great depth in the crust. For example, G. M. Barrow defined kyanite zones and sillimanite zones in his pioneering work on the mineralogy of metamorphic rocks. Barrow was characterizing a region of Scotland that had experienced regional metamorphism at depth. By contrast, the metamorphic zones surrounding the Fanad Pluton of Ireland, which formed by contact metamorphism at a shallower depth in the crust, include andalusite and sillimanite zones but no kyanite zone.[15]

Kyanite is potentially stable at low temperature and pressure. However, under these conditions, the reactions that produces kyanite, such as

muscovite + staurolite + quartz → biotite + kyanite + H2O

never take place, and hydrous aluminosilicate minerals such as muscovite, pyrophyllite, or kaolinite are found instead of kyanite.[16]

Bladed crystals of kyanite are not uncommon, but individual euhedral crystals are prized by collectors.[6] Kyanite occurs in Manhattan schist, formed under extreme pressure as a result of a continental collision during the assembly of the supercontinent of Pangaea.[17] It is also found in pegmatites of the Appalachian Mountains and in Minas Gerais, Brazil. Splendid specimens are found at Pizzo Forno in Switzerland.[6]

Uses

Kyanite is used primarily in refractory and ceramic products, including porcelain plumbing and dishware. It is also used in electronics, electrical insulators and abrasives.[18]

At temperatures above 1100 °C kyanite decomposes into mullite and vitreous silica via the following reaction: 3(Al2O3·SiO2) → 3Al2O3·2SiO2 + SiO2. This transformation results in an expansion.[19] Mullitized kyanite is used to manufacture refractory materials.[18]

Kyanite has been used as a semiprecious gemstone, which may display cat's eye chatoyancy, though this use is limited by its anisotropism and perfect cleavage. Color varieties include recently discovered orange kyanite from Tanzania.[20] The orange color is due to inclusion of small amounts of manganese (Mn3+) in the structure.[21]

References

Specific citations
  1. ^ Warr, L.N. (2021). "IMA–CNMNC approved mineral symbols". Mineralogical Magazine. 85 (3): 291–320. Bibcode:2021MinM...85..291W. doi:10.1180/mgm.2021.43. S2CID 235729616.
  2. ^ a b c "Kyanite" (PDF). Handbook of Mineralogy. 2001. Retrieved 2018-01-01.
  3. ^ a b "Kyanite". MinDat. Retrieved 2013-06-14.
  4. ^ "Kyanite Mineral Data". Webmineral.com. Retrieved 2013-06-14.
  5. ^ Jackson, Julia A., ed. (1997). Glossary of geology (Fourth ed.). Alexandria, Virginia: American Geological Institute. ISBN 0922152349.
  6. ^ a b c d e f Sinkankas, John (1964). Mineralogy for amateurs. Princeton, N.J.: Van Nostrand. pp. 528–529. ISBN 0442276249.
  7. ^ a b c Nesse, William D. (2000). Introduction to mineralogy. New York: Oxford University Press. p. 319. ISBN 9780195106916.
  8. ^ Winter, J.K.; Ghose, S. (1979). "Thermal expansion and high-temperature crystal chemistry of the Al 2 SiO 5 polymorphs". American Mineralogist. 64 (5–6): 573–586. Retrieved 28 August 2021.
  9. ^ a b Nesse 2000, p. 315.
  10. ^ Whitney, D.L. (2002). "Coexisting andalusite, kyanite, and sillimanite: Sequential formation of three Al2SiO5 polymorphs during progressive metamorphism near the triple point, Sivrihisar, Turkey". American Mineralogist. 87 (4): 405–416. doi:10.2138/am-2002-0404.
  11. ^ a b "Geology Page - Kyanite". Geology Page. 2014-05-16. Retrieved 2020-02-20.
  12. ^ Sinkankas, John (1964). Mineralogy for amateurs. Princeton, N.J.: Van Nostrand. p. 529. ISBN 0442276249.
  13. ^ Nesse 2000, p. 76.
  14. ^ Bohlen, S.R.; Montana, A.; Kerrick, D.M. (1991). "Precise determinations of the equilibria kyanite⇌ sillimanite and kyanite⇌ andalusite and a revised triple point for Al2SiO5 polymorphs". American Mineralogist. 76 (3–4): 677–680. Retrieved 28 August 2021.
  15. ^ Yardley, B. W. D. (1989). An introduction to metamorphic petrology. Harlow, Essex, England: Longman Scientific & Technical. pp. 8–10. ISBN 0582300967.
  16. ^ Yardley 1989, p. 68-69.
  17. ^ Quinn, Helen (6 June 2013). "How ancient collision shaped New York skyline". BBC Science. BBC.co.uk. Retrieved 2013-06-13. Prof Stewart was keeping an eye out for a mineral known as kyanite, a beautiful blue specimen commonly seen in the Manhattan schist. 'Kyanite is a key mineral to identify, we know it only forms at very deep depths and under extensive pressure,' he said. 'It's like a fingerprint, revealing a wealth of information.' The presence of this mineral reveals that the Manhattan schist was compressed under incredibly high pressure over 300 million years ago. The schist formed as a result of two enormous landmasses coming together to form a supercontinent, known as Pangaea.
  18. ^ a b Nesse 2000, p. 316.
  19. ^ Speyer, Robert (1993). Thermal Analysis of Materials. CRC Press. p. 166. ISBN 0-8247-8963-6.
  20. ^ M. Chadwick, Karen; R. Rossman, George (2009-01-01). "Orange kyanite from Tanzania". Gems and Gemology. 45.
  21. ^ M. Gaft; L. Nagli; G. Panczer; G. R. Rossman; R. Reisfeld (August 2011). "Laser-induced time-resolved luminescence of orange kyanite Al2SiO5". Optical Materials. 33 (10): 1476–1480. Bibcode:2011OptMa..33.1476G. doi:10.1016/j.optmat.2011.03.052.
General references
  • Faye, G. H.; Nickel, E. H. (1969). "On the origin of colour and pleochroism of kyanite" (PDF). The Canadian Mineralogist. 10: 35–46.

External links

 
Wikimedia Commons has media related to Kyanite.

January 31, 2023
kyanite, typically, blue, aluminosilicate, mineral, found, aluminium, rich, metamorphic, pegmatites, sedimentary, rock, high, pressure, polymorph, andalusite, sillimanite, presence, kyanite, metamorphic, rocks, generally, indicates, metamorphism, deep, earth, . Kyanite is a typically blue aluminosilicate mineral found in aluminium rich metamorphic pegmatites and sedimentary rock It is the high pressure polymorph of andalusite and sillimanite and the presence of kyanite in metamorphic rocks generally indicates metamorphism deep in the Earth s crust Kyanite is also known as disthene or cyanite 5 KyaniteGeneralCategoryNesosilicateFormula repeating unit Al2SiO5IMA symbolKy 1 Strunz classification9 AF 15Crystal systemTriclinicCrystal classPinacoidal 1 same H M symbol Space groupP1Unit cella 7 1262 12 A b 7 852 10 A c 5 5724 10 A a 89 99 2 b 101 11 2 g 106 03 1 Z 4IdentificationColorBlue white rarely green light gray to gray rarely yellow pink orange and black can be zonedCrystal habitColumnar fibrous bladedTwinningLamellar on 100 Cleavage 100 perfect 010 imperfect with 79 angle betweenFractureSplinteryTenacityBrittleMohs scale hardness4 5 5 parallel to one axis 6 5 7 perpendicular to that axisLusterVitreous to whiteStreakWhiteDiaphaneityTransparent to translucentSpecific gravity3 53 3 65 measured 3 67 calculatedOptical propertiesBiaxial high reliefRefractive indexna 1 712 1 718 nb 1 720 1 725 ng 1 727 1 734PleochroismTrichroic colorless to pale blue to blue2V angle78 83 References 2 3 4 Kyanite is strongly anisotropic in that its hardness varies depending on its crystallographic direction In kyanite this anisotropism can be considered an identifying characteristic along with its characteristic blue color Its name comes from the same origin as that of the color cyan being derived from the Ancient Greek word kyanos This is generally rendered into English as kyanos or kuanos and means dark blue Kyanite is used as a raw material in the manufacture of ceramics and abrasives and it is an important index mineral used by geologists to trace metamorphic zones Contents 1 Properties 1 1 Structure 2 Occurrence 3 Uses 4 References 5 External linksProperties Edit Deep blue kyanite Kyanite within quartz Hunterian Museum Glasgow Kyanite is an aluminum silicate mineral with chemical formula Al2SiO5 It is typically patchy blue in color though it can range from pale to deep blue 6 and can also be gray or white or infrequently light green 7 It typically forms sprays of bladed crystals but is less commonly found as distinct euhedral well shaped crystals which are particularly prized by collectors 6 It has a perfect 100 cleavage plane parallel to the long axis of the crystal and a second good cleavage plane 010 that is at an angle of 79 degrees to the 100 clevage plane Kyanite also shows a parting on 001 at an angle of about 85 degrees to the long axis of the crystal 7 Cleavage surfaces typically display a pearly luster Crystals are slightly flexible 6 Kyanite s elongated columnar crystals are usually a good first indication of the mineral as well as its color when the specimen is blue Associated minerals are useful as well especially the presence of the polymorphs of staurolite which occur frequently with kyanite However the most useful characteristic in identifying kyanite is its anisotropism If one suspects a specimen to be kyanite verifying that it has two distinctly different hardness values on perpendicular axes is a key to identification it has a hardness of 5 5 parallel to 001 and 7 parallel to 100 2 3 Thus a steel needle will easily scratch a kyanite crystal parallel to its long axis but the crystal is impervious to being scratched by a steel needle perpendicular to the long axis 6 Structure Edit The kyanite structure can be visualized as a distorted face centered cubic lattice of oxygen ions with aluminium ions occupying 40 of the octahedral sites and silicon occupying 10 of the tetrahedral sites The aluminium octahedra form chains along the length of the crystal half of which are straight and half of which are zigzag with silica tetrahedra linking the chains together There is no direct linkage between silica tetraheda making kyanite a member of the nesosilicate class of silicate minerals 8 9 Occurrence Edit Kyanite Andalusite Sillimanite Phase diagram of Al2SiO5 aluminosilicates 10 Kyanite occurs in biotite gneiss mica schist and hornfels which are metamorphic rocks formed at high pressure during regional metamorphism of a protolith rich in aluminium a pelitic protolith Kyanite is also occasionally found in granite and pegmatite 9 11 and associated quartz veins 12 and is infrequently found in eclogites It occurs as detrital grains in sedimentary rocks although it tends to weather rapidly 7 11 It occurs associated with staurolite andalusite sillimanite talc hornblende gedrite mullite and corundum 2 Kyanite is one of three common minerals having the composition Al2SiO5 Minerals with identical compositions but distinct crystal structure are called polymorphs The other polymorphs with identical composition to kyanite are andalusite and sillimanite Kyanite is the polymorph most stable at high pressure while andalusite is the most stable at lower temperature and pressure and sillimanite is the most stable at higher temperature and lower pressure 13 with the three polymorphs equally stable at the triple point near 4 2 kbar and 530 C 986 F 14 This makes the presence of kyanite in a metamorphic rock an indication of metamorphism at high pressure Kyanite is often used as an index mineral to define and trace a metamorphic zone that was subject to a particular degree of metamorphism at great depth in the crust For example G M Barrow defined kyanite zones and sillimanite zones in his pioneering work on the mineralogy of metamorphic rocks Barrow was characterizing a region of Scotland that had experienced regional metamorphism at depth By contrast the metamorphic zones surrounding the Fanad Pluton of Ireland which formed by contact metamorphism at a shallower depth in the crust include andalusite and sillimanite zones but no kyanite zone 15 Kyanite is potentially stable at low temperature and pressure However under these conditions the reactions that produces kyanite such as muscovite staurolite quartz biotite kyanite H2Onever take place and hydrous aluminosilicate minerals such as muscovite pyrophyllite or kaolinite are found instead of kyanite 16 Bladed crystals of kyanite are not uncommon but individual euhedral crystals are prized by collectors 6 Kyanite occurs in Manhattan schist formed under extreme pressure as a result of a continental collision during the assembly of the supercontinent of Pangaea 17 It is also found in pegmatites of the Appalachian Mountains and in Minas Gerais Brazil Splendid specimens are found at Pizzo Forno in Switzerland 6 Uses EditKyanite is used primarily in refractory and ceramic products including porcelain plumbing and dishware It is also used in electronics electrical insulators and abrasives 18 At temperatures above 1100 C kyanite decomposes into mullite and vitreous silica via the following reaction 3 Al2O3 SiO2 3Al2O3 2SiO2 SiO2 This transformation results in an expansion 19 Mullitized kyanite is used to manufacture refractory materials 18 Kyanite has been used as a semiprecious gemstone which may display cat s eye chatoyancy though this use is limited by its anisotropism and perfect cleavage Color varieties include recently discovered orange kyanite from Tanzania 20 The orange color is due to inclusion of small amounts of manganese Mn3 in the structure 21 References EditSpecific citations Warr L N 2021 IMA CNMNC approved mineral symbols Mineralogical Magazine 85 3 291 320 Bibcode 2021MinM 85 291W doi 10 1180 mgm 2021 43 S2CID 235729616 a b c Kyanite PDF Handbook of Mineralogy 2001 Retrieved 2018 01 01 a b Kyanite MinDat Retrieved 2013 06 14 Kyanite Mineral Data Webmineral com Retrieved 2013 06 14 Jackson Julia A ed 1997 Glossary of geology Fourth ed Alexandria Virginia American Geological Institute ISBN 0922152349 a b c d e f Sinkankas John 1964 Mineralogy for amateurs Princeton N J Van Nostrand pp 528 529 ISBN 0442276249 a b c Nesse William D 2000 Introduction to mineralogy New York Oxford University Press p 319 ISBN 9780195106916 Winter J K Ghose S 1979 Thermal expansion and high temperature crystal chemistry of the Al 2 SiO 5 polymorphs American Mineralogist 64 5 6 573 586 Retrieved 28 August 2021 a b Nesse 2000 p 315 Whitney D L 2002 Coexisting andalusite kyanite and sillimanite Sequential formation of three Al2SiO5 polymorphs during progressive metamorphism near the triple point Sivrihisar Turkey American Mineralogist 87 4 405 416 doi 10 2138 am 2002 0404 a b Geology Page Kyanite Geology Page 2014 05 16 Retrieved 2020 02 20 Sinkankas John 1964 Mineralogy for amateurs Princeton N J Van Nostrand p 529 ISBN 0442276249 Nesse 2000 p 76 Bohlen S R Montana A Kerrick D M 1991 Precise determinations of the equilibria kyanite sillimanite and kyanite andalusite and a revised triple point for Al2SiO5 polymorphs American Mineralogist 76 3 4 677 680 Retrieved 28 August 2021 Yardley B W D 1989 An introduction to metamorphic petrology Harlow Essex England Longman Scientific amp Technical pp 8 10 ISBN 0582300967 Yardley 1989 p 68 69 Quinn Helen 6 June 2013 How ancient collision shaped New York skyline BBC Science BBC co uk Retrieved 2013 06 13 Prof Stewart was keeping an eye out for a mineral known as kyanite a beautiful blue specimen commonly seen in the Manhattan schist Kyanite is a key mineral to identify we know it only forms at very deep depths and under extensive pressure he said It s like a fingerprint revealing a wealth of information The presence of this mineral reveals that the Manhattan schist was compressed under incredibly high pressure over 300 million years ago The schist formed as a result of two enormous landmasses coming together to form a supercontinent known as Pangaea a b Nesse 2000 p 316 Speyer Robert 1993 Thermal Analysis of Materials CRC Press p 166 ISBN 0 8247 8963 6 M Chadwick Karen R Rossman George 2009 01 01 Orange kyanite from Tanzania Gems and Gemology 45 M Gaft L Nagli G Panczer G R Rossman R Reisfeld August 2011 Laser induced time resolved luminescence of orange kyanite Al2SiO5 Optical Materials 33 10 1476 1480 Bibcode 2011OptMa 33 1476G doi 10 1016 j optmat 2011 03 052 General referencesMineral Galleries Faye G H Nickel E H 1969 On the origin of colour and pleochroism of kyanite PDF The Canadian Mineralogist 10 35 46 External links Edit Wikimedia Commons has media related to Kyanite Cyanite Encyclopaedia Britannica 11th ed 1911 Retrieved from https en wikipedia org w index php title Kyanite amp oldid 1136310665, wikipedia, wiki, book, books, library,

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