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Kosnarite

January 01, 1970

Kosnarite is an alkali zirconium phosphate mineral (KZr2(PO4)3) named after an expert of pegmatites Richard A. Kosnar.[2] Kosnarite contains potassium, oxygen, phosphorus, and zirconium with sodium, rubidium, hafnium, manganese and fluorine (Na, Rb, Hf, Mn, and F) being common impurities found in kosnarite. It was discovered in nature for the first time in 1991 by Vandall T. King. Samples that were found in granitic pegmatites from the Mount Mica Quarry, Paris, Oxford County, Maine, US were sent to Eugene E. Foord for study. This became the first recorded case of naturally occurring kosnarite.[3]

Kosnarite
General
CategoryAlkali zirconium phosphate
Formula
(repeating unit)		KZr2(PO4)3
IMA symbolKsn[1]
Strunz classification7/A. 17-10
Crystal systemTrigonal Hexagonal crystal family
Crystal classHexagonal Scalenohedral (3)m (3)2/m)
(same H-M symbol)
Space groupR3c
Unit cella = 8.687 Å,
c = 23.877 Å; V= 1,560.45 ų
Identification
ColorPale Blue, blue-green, or colorless
Crystal habitRhombohedral with tiny c pinacolid
TwinningNot observed
CleavagePerfect at {102}
FractureConchoidal fracture
Mohs scale hardness4.5
LusterVitreous
StreakWhite
DiaphaneityTransparent to translucent
Specific gravity3.2
Optical propertiesuniaxial (+)
Refractive indexNw = 1.656(2)
Nc = 1.682(2)
Birefringenceδ = 0.026
References[2][3][4]

Occurrence edit

The first naturally occurring kosnarite was discovered in northern Maine in the United States. Another deposit was later found in Black Mountain, Oxford County, Maine. Both of these deposits were found in zoned granitic pegmatites associated with several minerals such as quartz, lepidolite, and beryl. Another deposit was found in Wycheproof, Northern Victoria, Australia, and this sample of kosnarite was also found in granitic pegmatite. Pegmatite is the term for a form of igneous rock with relatively large interlocking crystals, and there are three popular theories on how pegmatites named metamorphic, magmatic, and metasomatic. The pegmatites that the kosnarite are found in are believed to be formed by a mixture of magmatic and metamorphic as the kosnarite forms in the later stages of paragenesis by the alterations of hydrothermal fluids.[3]

Analysis edit

Due to the rarity of kosnarite, forms of analysis that involve the powdering of the sample such as X-ray diffraction (XRD) can not be used, so other methods have to be used. To find the data that would have been provided by the XRD, a Gandolfi camera with an 114.6mm diameter was used to find the d-spacing and intensity. Kosnarite's density was found using the sink-float method while using an acetone mixture and methylene iodide.[3] In order to find the chemical composition of kosnarite without damaging any sample, an ARL-SEMQ electron microprobe using an Opus microprobe automation system was used. To help find the chemical composition, CITZAF correction procedures were added to the study. Additionally, emission spectrographic analysis was completed by using a Jarrel-Ash 3.2-m spectrograph using a laser energy source.[3]

Chemical composition edit

Oxides wt%
P2O5 43.3%
ZrO2 44.5%
HfO2 0.5%
MnO 1.0%
FeO 0.2%
K2O 8.7%
Na2O 1.4%
Rb2O 0.25%
F- 0.20%
Total 100.05%

[3]

Properties edit

The results of the testing found that kosnarite had large amounts of zirconium, phosphorus, and potassium. In the samples, there were also traces of calcium, zinc, and manganese, but these elements make up less than one percent, so they were classified as impurities. Physically, kosnarite from the pegmatites found in Maine occurred as rhombohedral crystals with a hexagonal unit cell[4] and were pseudocubic with a maximum size of around 0.9 mm. This is important as zirconium is in the form of a six coordinated octahedron and potassium is structured in a shape called a trigonal antiprism that is also six coordinated.[4] Kosnarite's structure was then determined by using [100] Patterson projection, and interatomic vector projection was also used to help determine the crystal structure. Special positions in the mineral were then found for potassium, zirconium, and phosphate while the two oxygen atoms had general positions.[4] Multiple refinement cycles using a unit weighing system, and least-squares refinements were used to minimize the deviation of the shifting of the atoms.[4] Later tests showed that zirconium polyhedra groups were joined by groups of phosphate these are both connected to each other by oxygen atoms. However, the oxygens are always bridges between the zirconium and phosphate and one oxygen is never shared between two the same groups and half of the oxygens are also shared with K groups.[4] The pattern of two zirconium polyhedron, one potassium polyhedron, two zirconium polyhedron, and the oxygen and phosphate groups filling in the gaps creates kosnarite's unique crystal structure.[4]

Depending on the impurities present in the sample, the color of kosnarite can range from pale blue to blue-green depending on the amount of iron, manganese, or other impurities, and kosnarite can sometimes appear to be nearly colorless.[3] Other physical properties of kosnarite include its vitreous lust, non-fluorescence, a hardness of 4.5 on the mohs scale of mineral hardness, conchoidal fracturing, and perfect cleavage in the {102} direction. Structurally, kosnarite is part of the hexagonal crystal family meaning that the crystals have three or six-fold symmetry and has a space group of R3c.[2] The unit cell of kosnarite was calculated to be a = 8.687 Å, c = 23.877 Å; V = 1,560.45 Å3, and no twinning growth has been observed. It was discovered that kosnarite is uniaxial (+) with its axes being Nw = 1.656(2), Nc = 1.682(2), and being nonpleochronic. Due to the small number of available samples, some tests have not been carried out, such as infrared spectra.[3]

Related minerals edit

Kosnarite is part of the alkali zirconium phosphates in which there are only two other known members of this group: gainesite, and a Cs analogue of gainesite.[3]

See also edit

References edit

  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 Kosnar, B. "Kosnarite: Mineral Information, Data, and Localities". Hudson Institute of Mineralogy.
  3. ^ a b c d e f g h i Brownfield, Michael E.; Foord, Eugene E.; Sutley, Stephen J.; Botinelly, Theodore (1993). "Kosnarite, KZr2(PO4)3, a new mineral from Mount Mica and Black Mountain, Oxford County, Maine". American Mineralogist. 78 (5–6): 653–656.
  4. ^ a b c d e f g ŠLJUKIĆ, M.; MATKOVIĆ, B.; PRODIĆ, B.; ANDERSON, D. (1 January 1969). "The crystal structure of KZr2(PO4)3". Zeitschrift für Kristallographie – Crystalline Materials. 130 (1–6): 148–161. doi:10.1524/zkri.1969.130.16.148. S2CID 201841649.

January 01, 1970
kosnarite, alkali, zirconium, phosphate, mineral, kzr2, named, after, expert, pegmatites, richard, kosnar, contains, potassium, oxygen, phosphorus, zirconium, with, sodium, rubidium, hafnium, manganese, fluorine, being, common, impurities, found, kosnarite, di. Kosnarite is an alkali zirconium phosphate mineral KZr2 PO4 3 named after an expert of pegmatites Richard A Kosnar 2 Kosnarite contains potassium oxygen phosphorus and zirconium with sodium rubidium hafnium manganese and fluorine Na Rb Hf Mn and F being common impurities found in kosnarite It was discovered in nature for the first time in 1991 by Vandall T King Samples that were found in granitic pegmatites from the Mount Mica Quarry Paris Oxford County Maine US were sent to Eugene E Foord for study This became the first recorded case of naturally occurring kosnarite 3 KosnariteGeneralCategoryAlkali zirconium phosphateFormula repeating unit KZr2 PO4 3IMA symbolKsn 1 Strunz classification7 A 17 10Crystal systemTrigonal Hexagonal crystal familyCrystal classHexagonal Scalenohedral 3 m 3 2 m same H M symbol Space groupR3 cUnit cella 8 687 A c 23 877 A V 1 560 45 A IdentificationColorPale Blue blue green or colorlessCrystal habitRhombohedral with tiny c pinacolidTwinningNot observedCleavagePerfect at 102 FractureConchoidal fractureMohs scale hardness4 5LusterVitreousStreakWhiteDiaphaneityTransparent to translucentSpecific gravity3 2Optical propertiesuniaxial Refractive indexNw 1 656 2 Nc 1 682 2 Birefringenced 0 026References 2 3 4 Contents 1 Occurrence 2 Analysis 3 Chemical composition 4 Properties 5 Related minerals 6 See also 7 ReferencesOccurrence editThe first naturally occurring kosnarite was discovered in northern Maine in the United States Another deposit was later found in Black Mountain Oxford County Maine Both of these deposits were found in zoned granitic pegmatites associated with several minerals such as quartz lepidolite and beryl Another deposit was found in Wycheproof Northern Victoria Australia and this sample of kosnarite was also found in granitic pegmatite Pegmatite is the term for a form of igneous rock with relatively large interlocking crystals and there are three popular theories on how pegmatites named metamorphic magmatic and metasomatic The pegmatites that the kosnarite are found in are believed to be formed by a mixture of magmatic and metamorphic as the kosnarite forms in the later stages of paragenesis by the alterations of hydrothermal fluids 3 Analysis editDue to the rarity of kosnarite forms of analysis that involve the powdering of the sample such as X ray diffraction XRD can not be used so other methods have to be used To find the data that would have been provided by the XRD a Gandolfi camera with an 114 6mm diameter was used to find the d spacing and intensity Kosnarite s density was found using the sink float method while using an acetone mixture and methylene iodide 3 In order to find the chemical composition of kosnarite without damaging any sample an ARL SEMQ electron microprobe using an Opus microprobe automation system was used To help find the chemical composition CITZAF correction procedures were added to the study Additionally emission spectrographic analysis was completed by using a Jarrel Ash 3 2 m spectrograph using a laser energy source 3 Chemical composition editOxides wt P2O5 43 3 ZrO2 44 5 HfO2 0 5 MnO 1 0 FeO 0 2 K2O 8 7 Na2O 1 4 Rb2O 0 25 F 0 20 Total 100 05 3 Properties editThe results of the testing found that kosnarite had large amounts of zirconium phosphorus and potassium In the samples there were also traces of calcium zinc and manganese but these elements make up less than one percent so they were classified as impurities Physically kosnarite from the pegmatites found in Maine occurred as rhombohedral crystals with a hexagonal unit cell 4 and were pseudocubic with a maximum size of around 0 9 mm This is important as zirconium is in the form of a six coordinated octahedron and potassium is structured in a shape called a trigonal antiprism that is also six coordinated 4 Kosnarite s structure was then determined by using 100 Patterson projection and interatomic vector projection was also used to help determine the crystal structure Special positions in the mineral were then found for potassium zirconium and phosphate while the two oxygen atoms had general positions 4 Multiple refinement cycles using a unit weighing system and least squares refinements were used to minimize the deviation of the shifting of the atoms 4 Later tests showed that zirconium polyhedra groups were joined by groups of phosphate these are both connected to each other by oxygen atoms However the oxygens are always bridges between the zirconium and phosphate and one oxygen is never shared between two the same groups and half of the oxygens are also shared with K groups 4 The pattern of two zirconium polyhedron one potassium polyhedron two zirconium polyhedron and the oxygen and phosphate groups filling in the gaps creates kosnarite s unique crystal structure 4 Depending on the impurities present in the sample the color of kosnarite can range from pale blue to blue green depending on the amount of iron manganese or other impurities and kosnarite can sometimes appear to be nearly colorless 3 Other physical properties of kosnarite include its vitreous lust non fluorescence a hardness of 4 5 on the mohs scale of mineral hardness conchoidal fracturing and perfect cleavage in the 102 direction Structurally kosnarite is part of the hexagonal crystal family meaning that the crystals have three or six fold symmetry and has a space group of R3 c 2 The unit cell of kosnarite was calculated to be a 8 687 A c 23 877 A V 1 560 45 A3 and no twinning growth has been observed It was discovered that kosnarite is uniaxial with its axes being Nw 1 656 2 Nc 1 682 2 and being nonpleochronic Due to the small number of available samples some tests have not been carried out such as infrared spectra 3 Related minerals editKosnarite is part of the alkali zirconium phosphates in which there are only two other known members of this group gainesite and a Cs analogue of gainesite 3 See also editCrystal systems List of mineralsReferences edit 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 Kosnar B Kosnarite Mineral Information Data and Localities Hudson Institute of Mineralogy a b c d e f g h i Brownfield Michael E Foord Eugene E Sutley Stephen J Botinelly Theodore 1993 Kosnarite KZr2 PO4 3 a new mineral from Mount Mica and Black Mountain Oxford County Maine American Mineralogist 78 5 6 653 656 a b c d e f g SLJUKIC M MATKOVIC B PRODIC B ANDERSON D 1 January 1969 The crystal structure of KZr2 PO4 3 Zeitschrift fur Kristallographie Crystalline Materials 130 1 6 148 161 doi 10 1524 zkri 1969 130 16 148 S2CID 201841649 Retrieved from https en wikipedia org w index php title Kosnarite amp oldid 1196958099, wikipedia, wiki, book, books, library,

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