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Brianyoungite, a new mineral related to hydrozincite, from the north of England orefield

Published online by Cambridge University Press:  05 July 2018

A. Livingstone
Affiliation:
Department of Geology, Royal Museum of Scotland, Chambers Street, Edinburgh EH1 1JF
P. E. Champness
Affiliation:
Department of Geology, The University of Manchester, Oxford Road, Manchester M13 9PL

Abstract

Brianyoungite, which is chemically and structurally related to hydrozincite, occurs as white rosettes (<100 μm) with gypsum on rubbly limestone within the oxidised zone at Brownley Hill Mine, Nenthead, Cumbria. The mineral contains (wt.%) 71.47 ZnO, 9.90 CO2, 6.62 SO3 and 10.70 H2O+. Based on 29 oxygen atoms, the empirical formula is Zn11.73[(CO3)3.00,(SO4)1.10]4.10(OH)15.88 or ideally Zn3(CO3,SO4)(OH)4. Brianyoungite is either orthorhombic or monoclinic with β very close to 90° Cell parameters determined by electron diffraction and refined from X-ray powder diffraction data are a = 15.724, b = 6.256 and c = 5.427 Å. Density is > 3.93, < 4.09 g/cm3 (meas.) and 4.11 g/cm3 (calc.); Z = 4. Thermogravimetric analysis, IR and XRD powder data (23 lines) are presented.

Type
Mineralogy
Copyright
Copyright © The Mineralogical Society of Great Britain and Ireland 1993

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References

Effenberger, H. Von and Pertlik, F. (1985) Verfeiner-ung der Kristallstruktur des Hydrozinkits Zns(OH)6(CO3)2. Osterrich. Akad. Wissenschft. Math. Naturschft. KI. Anzeiger 122, 911.Google Scholar
Ghose, S. (1964) The crystal structure of hydrozincite, Zns(OH)6(CO3)2 Acta CrystaUogr., 17, 1051–7.Google Scholar
Jambor, J. L. (1964) Studies of basic copper and zinc carbonates: 1-synthetic zinc carbonates and their relationship to hydrozincite. Can. Mineral., 8, 92108.Google Scholar
Jambor, J. L. (1966) Natural and synthetic hydrozincites. Ibid., 8, 652-3.Google Scholar
Livingstone, A. (1991) The zinc analogue of ktenasite from Smallcleugh and Brownley Hill mines, Nent-head, Cumbria. J. Russell Soc., 4, 1315.Google Scholar
Livingstone, A. Jackson, B., and Davidson, P. J. (1992) The zinc analogue of schulenbergite, from Ramsbeck, Ger-many. Mineral. Mag., 56, 215–19.Google Scholar
Mandarino, J. A. (1981) The Gladstone-Dale relationship: Part IV. The compatibility concept and its application. Canad. Mineral., 19, 441–50.Google Scholar
Nickel, E. H. and Clarke, R. M. (1976) Carrboydite, a hydrated sulfate of nickel and aluminium: a new mineral from Western Australia. Amer. Mineral., 61, 366–72.Google Scholar