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Titanite

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Titanite (Sphene)
Titanite crystals on amphibole (image width 2 mm)
General
CategoryNesosilicate
Formula
(repeating unit)
CaTiSiO5
IMA symbolTtn[1]
Strunz classification9.AG.15
Crystal systemMonoclinic
Crystal classPrismatic (2/m)
(same H–M symbol)
Space groupP21/a
Unit cella = 7.057 Å, b = 8.707 Å
c = 6.555 Å; β = 113.81°; Z = 4
Identification
ColourReddish brown, brown, gray, black, yellow, green, or red, colourless
Crystal habitFlattened wedge-shaped crystals, also massive
TwinningContact and penetration on {100}, lamellar on {221}
CleavageDistinct on [110], parting on {221}
FractureSub-conchoidal
Mohs scale hardness5–5.5
LusterSub-adamantine tending to slightly resinous
StreakReddish white
DiaphaneityTranslucent to transparent
Specific gravity3.48–3.60
Optical propertiesBiaxial (+); very high relief
Refractive indexnα = 1.843–1.950
nβ = 1.870–2.034
nγ = 1.943–2.110
Birefringenceδ = 0.100–0.160
PleochroismStrong: X = nearly colorless; Y = yellow to green; Z = red to yellow-orange
2V angle17–40° (measured)
Dispersionr > v strong
Other characteristics Radioactive – may be metamict
References[2][3][4][5]
Titanite crystal model

Titanite, or sphene (from Ancient Greek σφηνώ (sphēnṓ) 'wedge'),[5] is a calcium titanium nesosilicate mineral, CaTiSiO5. Trace impurities of iron and aluminium are typically present. Also commonly present are rare earth metals including cerium and yttrium; calcium may be partly replaced by thorium.[6]

Nomenclature

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The International Mineralogical Association Commission on New Minerals and Mineral Names (CNMMN) adopted the name titanite and "discredited" the name sphene[7] as of 1982,[8] although commonly papers and books initially identify the mineral using both names.[9][10] Sphene was the most commonly used name until the IMA decision, although both were well known.[5] Some authorities[11] think it is less confusing as the word is used to describe any chemical or crystal with oxidized titanium such as the rare earth titanate pyrochlores series[12] and many of the minerals with the perovskite structure.[13] The name sphene continues to be publishable in peer-reviewed scientific literature, e.g. a paper by Hayden et al. was published in early 2008 in the journal Contributions to Mineralogy and Petrology.[11] Sphene persists as the informal name for titanite gemstones.

Physical properties

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Green titanite crystal cluster from the Tormiq Valley, Haramosh Mountains, Pakistan

Titanite, which is named for its titanium content, occurs as translucent to transparent, reddish brown, gray, yellow, green, or red monoclinic crystals. These crystals are typically sphenoid in habit and are often twinned. Possessing a subadamantine tending to slightly resinous luster, titanite has a hardness of 5.5 and a weak cleavage. Its specific gravity varies between 3.52 and 3.54. Titanite's refractive index is 1.885–1.990 to 1.915–2.050 with a strong birefringence of 0.105 to 0.135 (biaxial positive); under the microscope this leads to a distinctive high relief which combined with the common yellow-brown colour and lozenge-shape cross-section makes the mineral easy to identify. Transparent specimens are noted for their strong trichroism, the three colours presented being dependent on body colour. Owing to the quenching effect of iron, sphene exhibits no fluorescence under ultraviolet light. Some titanite has been found to be metamict, in consequence of structural damage due to radioactive decomposition of the often significant thorium content. When viewed in thin section with a petrographic microscope, pleochroic halos can be observed in minerals surrounding a titanite crystal.

Occurrence

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Titanite occurs as a common accessory mineral in intermediate and felsic igneous rocks and associated pegmatites. It also occurs in metamorphic rocks such as gneiss and schists and skarns.[2] Source localities include: Pakistan; Italy; Russia; China; Brazil; Tujetsch, St. Gothard, Switzerland;[5] Madagascar; Tyrol, Austria; Renfrew County, Ontario, Canada; Sanford, Maine, Gouverneur, Diana, Rossie, Fine, Pitcairn, Brewster, New York[5] and California in the US.

Uses

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Titanite is a source of titanium dioxide, TiO2, used in pigments.

As a gemstone, titanite is usually some shade of chartreuse, but can be brown or black. Hue depends on iron (Fe) content, with low Fe content causing green and yellow colours, and high Fe content causing brown or black hues. Zoning is typical in titanite. It is prized for its exceptional dispersive power (0.051, B to G interval) which exceeds that of diamond.[14] Jewelry use of titanite is limited, both because the stone is uncommon in gem quality and is relatively soft.

Titanite can also be used as a U-Pb geochronometer, specifically in metamorphic terranes.

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References

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  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 "Titanite". Handbook of Mineralogy (PDF).
  3. ^ Titanite Mineral Data, WebMineral.com
  4. ^ Titanite, Mindat.org
  5. ^ a b c d e Dana, James Dwight; Ford, William Ebenezer (1915). Dana's Manual of Mineralogy for the Student of Elementary Mineralogy, the Mining Engineer, the Geologist, the Prospector, the Collector, Etc (13 ed.). John Wiley & Sons, Inc. pp. 299–300. Retrieved 2009-07-06.
  6. ^ Deer, W. A.; Howie, R. A.; Zussman, J. (1966). Introduction to the Rock-Forming Minerals. Longman. pp. 17–20. ISBN 0-582-44210-9.
  7. ^ Nickel, Ernest H.; Nichols, Monte C. (2008-10-17). "IMA/CNMNC List of Mineral Names" (PDF). Material Data, Inc. p. 280. Retrieved 2009-03-14.
  8. ^ Hey, M. H. (December 1982). "International Mineralogical Association: Commission on New Minerals and Mineral Names". Mineralogical Magazine. 46 (341): 513–514. Bibcode:1982MinM...46..513H. doi:10.1180/minmag.1982.046.341.25. S2CID 140202196.
  9. ^ Wenk, Hans-Rudolf; Bulakh, Andrei (May 2004). Minerals: Their Constitution and Origin. New York, NY: Cambridge University Press. ISBN 978-0-521-52958-7.
  10. ^ Nesse, William D. (August 2003). Introduction to Optical Mineralogy. New York, NY: Oxford University Press, USA. ISBN 978-0-19-514910-4.
  11. ^ a b Hayden, L. A.; Watson, E. B.; Wark, D. A. (2008). "A thermobarometer for sphene (titanite)". Contributions to Mineralogy and Petrology. 155 (4): 529–540. Bibcode:2008CoMP..155..529H. doi:10.1007/s00410-007-0256-y. S2CID 129085138.
  12. ^ Helean, K. B.; Ushakov, S. V.; Brown, C. E.; Navrotsky, A.; Lian, J.; Ewing, R. C.; Farmer, J. M.; Boatner, L. A. (June 2004). "Formation enthalpies of rare earth titanate pyrochlores". Journal of Solid State Chemistry. 177 (6): 1858–1866. Bibcode:2004JSSCh.177.1858H. doi:10.1016/j.jssc.2004.01.009. S2CID 97381935.
  13. ^ Freitas, G. F. G.; Nasar, R. S.; Cerqueira, M.; Melo, D. M. A.; Longo, E.; Varela, J. A. (October 2006). "Luminescence in semi-crystalline zirconium titanate doped with lanthanum". Materials Science and Engineering: A. 434 (1–2): 19–22. doi:10.1016/j.msea.2006.07.023.
  14. ^ "Sphene (Titanite) Value, Price, and Jewelry Information". International Gem Society.
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