Chemistry:Oligoclase

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Short description: Sodium-rich plagioclase feldspar mineral
Oligoclase
Oligoclase-4jg47a.jpg
Oligoclase from Chihuahua, Mexico
General
Categoryplagioclase, feldspar, tectosilicate
Formula
(repeating unit)
(Ca,Na)(Al,Si)4O8, where Ca/(Ca + Na) (% anorthite) is between 10–30%
Crystal systemTriclinic
Crystal classPinacoidal (1)
(same H-M symbol)
Identification
CleavagePerfect {001}, Good {010}, Poor {110}.
FractureUneven, sub-conchoidal
Mohs scale hardness6 to 6.5
|re|er}}Vitreous
StreakWhite
Specific gravity2.64 to 2.66
Refractive indexnα = 1.533–1.543; nβ = 1.537–1.548; nγ = 1.542–1.552
Birefringence1st order

Oligoclase is a rock-forming mineral belonging to the plagioclase feldspars. In chemical composition and in its crystallographic and physical characters it is intermediate between albite (NaAlSi3O8) and anorthite (CaAl2Si2O8).[1] The albite:anorthite molar ratio of oligoclase ranges from 90:10 to 70:30.

Oligoclase is a high sodium feldspar crystallizing in the triclinic system. The Mohs hardness is 6 to 6.5 and the specific gravity is 2.64 to 2.66. The refractive indices are: nα = 1.533–1.543, nβ = 1.537–1.548, and nγ = 1.542–1.552. In color it is usually white, with shades of grey, green, or red.[1]

Oligoclase is a common mineral in the more silica-rich varieties of igneous rock and in many metamorphic rocks.

Name and discovery

The name oligoclase was given by August Breithaupt in 1826 from the Ancient Greek:, little, and Ancient Greek:, to break, because the mineral was thought to have a less perfect cleavage than albite. It had previously been recognized as a distinct species by J. J. Berzelius in 1824, and was named by him soda-spodumene (Natron-spodumen), because of its resemblance in appearance to spodumene.[1]

Occurrence

Perfectly colorless and transparent glassy material found at Bakersville, North Carolina has occasionally been faceted as a gemstone. Another variety more frequently used as a gemstone is the aventurine-feldspar or sun-stone found as reddish cleavage masses in gneiss at Tvedestrand in southern Norway ; this presents a brilliant red to golden metallic glitter, due to the presence of numerous small scales of hematite oriented within the feldspar structure.[1]

Oligoclase occurs, often accompanying orthoclase, as a constituent of plutonic igneous rocks such as granite, syenite, and diorite. It occurs in porphyry and diabase dikes and sills as well as in the volcanic rocks andesite and trachyte, and in mugearite where its presence is a defining feature. It also occurs in gneiss. The best developed and largest crystals are those found with orthoclase, quartz, epidote, and calcite in veins in granite at Arendal in Norway.[1] The distinctive texture of rapakivi granite is due to oligoclase rims on orthoclase phenocrysts. Oligoclase is also found in metamorphic rocks formed under transitional greenschist to amphibolite facies conditions.

Schiller iridescence

Some examples are called moonstone and show Schiller iridescence due to the presence of exsolution lamellae on cooling in the peristerite miscibility gap, ~An5-An18.

References

  1. 1.0 1.1 1.2 1.3 1.4 Cite error: Invalid <ref> tag; no text was provided for refs named EB1911