Metarauchite
Metarauchite is a member of the autunite group, found at the Jáchymov ore district (type locality), Czech Republic and in Schneeberg, Germany. Metarauchite is a member of the Autunite Group, which is a group of structured uranyl phosphates and arsenates, the other members of the group are Autunite, Bassetite, Heinrichite, Kahlerite, Nováčekite-I, Nováčekite-II, Rauchite, Sabugalite, Saléeite, Torbernite, Uranocircite, Uranospinite, Zeunerite. The mineral is named after Czech mineral collector Luděk Rauch, who died in the Jáchymov mines during mineral prospecting.[1]
Metarauchite | |
---|---|
General | |
Category | Uranyl Arsenates |
Formula (repeating unit) | Ni(UO2)2(AsO4)2·8H2O |
Strunz classification | 08.EB.05 |
Dana classification | 40.02a.17.02 |
Crystal system | Triclinic |
Crystal class | Pinacoidal H-M symbol: 1 |
Space group | P1 |
Unit cell | a = 7.194(4) b = 9.713(5) c = 13.201(9) α = 75.79(5)° β = 83.92(3)° γ = 81.59(4)° |
Identification | |
Color | Yellow to light greenish yellow |
Crystal habit | Tabular Crystals |
Twinning | Multiply twinned along {011} |
Cleavage | Perfect on (011) |
Fracture | Uneven |
Tenacity | Very brittle |
Mohs scale hardness | 2 |
Luster | Vitreous - pearly |
Streak | Light green to pale yellow. |
Diaphaneity | Transparent to translucent |
Density | 3.81 gm/cc |
Optical properties | Biaxial (-) |
Birefringence | δ = 0.024 |
Pleochroism | Non-pleochroic |
2V angle | Measured: 23-52° |
Ultraviolet fluorescence | None |
Solubility | Cold 10% HCl |
Occurrence
Metarauchite occurs as a secondary mineral in strongly oxidized polymetallic vein material. Metarauchite is found primarily in two localities, the northern part of the Jáchymov ore district, northwestern Bohemia, Czech Republic and the Adam Heber mine, Neustädtel, Germany. It is commonly associated with metazeunerite, erythrite, and gypsum (Jáchymov) and Ni-bearing metanováčekite, metazeunerite, pharmacosiderite (Schneeberg). Both localities have a surface containing strongly altered aggregates of primary ore with relics of uraninite, arsenopyrite and nickelskutterudite and traces of native bismuth at the Schweitzer vein in the Eduard mine.[1]
Physical properties
Metarauchite exhibits yellow to light greenish-yellow crystals, up to 0.8 mm in size, these crystals are transparent to translucent and display vitreous to pearly luster. It exhibits a hardness of 2 on the Moh's Hardness Scale.[2] Displays thick tabular crystals, with a prevalent pinacoid (011). Metarauchite is very brittle and shows perfect cleavage along the {011} plane.[3][1] Metarauchite does not exhibit fluorescence either in short- and long-wavelength ultraviolet radiation. The density of metarauchite is not easily measured because of the relatively small size of most of its crystals; hence only the calculated density from the unit cell parameters and empirical formula was obtained, giving the value 3.81 g/cm3 .[1]
Optical properties
Metarachite is biaxial negative, it exhibits its 2V is calculated at 52°.[2][3] Metarauchite is non-pleochroic and displays no observable dispersion and a Gladstone-Dale index of 0.03.[3]
Chemical properties
Metarauchite is a Ni- and As-dominant member of the group of hydrated uranyl arsenates and phosphates with the autunite-type sheet containing divalent cations in their inter-layer. It is only isostructural with synthetic metakirchheimerite. Metarauchite displays prominent substitution for Mg with Co, but magnesium is more commonly substituted with Ni in species found at the Schneeberg locality. The empirical formula for metarauchite is (Ni00.82Co0.12Mg0.02)Σ0.96(UO2)2.01[(AsO4)1.88(PO4)0.03(SiO4)0.02]Σ1.93•8.21H2O[1] (on the basis of 20 O,OH atoms). Simplified, the formula is Ni(UO2)2(AsO2)2•8H2O.[4]
Chemical composition (Jáchymov)
Oxide | wt% | Range |
---|---|---|
NiO | 6.05 | 5.58-7.10 |
CoO | 0.91 | 0.7-1.13 |
MgO | 0.09 | 0.00-0.24 |
UO3 | 56.72 | 55.65-60.97 |
As2O5 | 21.31 | 19.87-23.22 |
P2O5 | 0.22 | 17.14-17.69 |
SiO2 | 0.09 | 3.43-5.18 |
H2O | 14.61 | 1.37-1.43 |
Total | 100% | - |
Chemical Composition (Schneeberg)
Oxide | wt% | Range |
---|---|---|
NiO | 5.48 | 4.81-6.86 |
CoO | 0.81 | 0.57-1.09 |
ZnO | 0.14 | 0.00-0.42 |
MgO | 0.50 | 0.17-0.88 |
UO3 | 58.42 | 59.64-64.49 |
As2O5 | 18.34 | 14.03-23.61 |
P2O5 | 0.22 | 0.64-3.83 |
SiO2 | 0.09 | 0.00-0.42 |
H2O | 14.19 | - |
Total | 100% |
Crystallography
Metarauchite is in the triclinic crystal system, with a space group of P1 and is classed as a pinacoidal. The cell parameters are a = 7.194(2) Å, b = 9.759(5) Å, c = 13.231(7) Å, α = 75.53(3)°, β = 84.01(3)°, γ = 81.59(3)°, which shows an a:b:c ratio of 0.737:1:1.356. The unit cell volume is 887.53 ų (Calculated from Unit Cell). Metarauchite crystals show characteristic multiply twinned along {011}.[3]
Powder X-Ray Diffraction
8.625 | (100) |
5.078 | (25) |
5.044 | (29) |
4.277 | (29) |
3.568 | (50) |
3.492 | (28) |
3.424 | (26) |
2.990 | (21) |
See also
References
[1] Plasil, et al., 2010, Metarauchite, From Jáchymov, Czech Republic, and Schneeberg, Germany: A New Member of the Autunite Group: Canadian MIneralologist, v. 48 p. 335-346.
[4] webmineral.com, 2017, Metarauchite Mineral Data: http://webmineral.com/data/Metarauchite.shtml#.WhvZEEqnEuV (accessed November 2017)
[3] mindat.org, 2017, Metarauchite: https://www.mindat.org/min-39220.html (accessed November 2017)
[5] minsocam.org, 2017, New Mineral Names: American Mineralogist, v. 96 p. 943. http://www.minsocam.org/msa/AmMin/TOC/Abstracts/2011_Abstracts/MJ11_Abstracts/Poirier_p936_11.pdf (accessed November 2017)
[2] http://www.handbookofmineralogy.org/pdfs/metarauchite.pdf
References
- ^ a b c d e f Pasil, Jakub (2010). "Metarauchite, From Jáchymov, Czech Republic, and Schneeberg, Germany: A New Member of the Autunite Group" (PDF). The Canadian Mineralogist. 48: 335–350. doi:10.3749/canmin.48.2.335.
- ^ a b c http://www.minsocam.org/msa/AmMin/TOC/Abstracts/2011_Abstracts/MJ11_Abstracts/Poirier_p936_11.pdf
- ^ a b c d e f "Metarauchite: Metarauchite mineral information and data". www.mindat.org. Retrieved 2017-11-27.
- ^ a b Barthelmy, Dave. "Metarauchite Mineral Data". webmineral.com. Retrieved 2017-11-27.
- ^ Poirier, Glenn (2011). "New Mineral Names" (PDF). The American Mineralogist. 96 (5–6): 943. Bibcode:2011AmMin..96..936P. doi:10.2138/am.2011.576.