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Menshikovite, Pd-Ni arsenide and synthetic equivalent

Published online by Cambridge University Press:  05 July 2018

A. Y. Barkov*
Affiliation:
Department of Earth and Planetary Sciences, McGill University, 3450 University Street, Montreal, Quebec H3A 2A7, Canada
K. Laajoki
Affiliation:
Department of Geology, University of Oulu, FIN-90570 Oulu, Finland
F. Gervilla
Affiliation:
Department of Mineralogy and Petrology, University of Granada, Avda. Fuentenueva, s/n, 18002 Granada, Spain
E. Makovicky
Affiliation:
Department of Mineralogy and Petrology, University of Copenhagen, Østervoldgade 10, 1350 Copenhagen, Denmark
*

Abstract

The average compositions of menshikovite (Pd3Ni2As3) from the type locality (Lukkulaisvaara layered intrusion, Russian Karelia) and a Pd-Ni arsenide synthesized at 450°C, are very close. The observed ΣMetal:As ratio is close to 5:3, as in the case of previously described arsenides from the Stillwater and Two-Duck Lake intrusions. The compositions suggest that these unnamed Pd-Ni arsenides and the synthetic phase are in fact menshikovite.

Type
Research Article
Copyright
Copyright © The Mineralogical Society of Great Britain and Ireland 2000

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References

Barkov, A.Y. and Lednev, A.I (1993) A rhenium-molybdenum-copper sulfide from the Lukkulaisvaara layered intrusion, northern Karelia, Russia. Eur. J. Mineral, 5, 1227–33.CrossRefGoogle Scholar
Barkov, A, Alapieti, T., Laajoki, K. and Peura, R. (1996) Osmian hollingworthite and rhodian cobaltite-gers-dorffite from the Lukkulaisvaara layered intrusion, Russian Karelia. Mineral. Mag., 60, 973–8.CrossRefGoogle Scholar
Cabri, L.J., Laflamme, J.H.G., Stewart, J.M., Rowland, J.F. and Chen, T. T. (1975) New data on some palladium arsenides and antimonides. Canad. Mineral, 13, 321–35.Google Scholar
Chen, Y., Fleet, M.E. and Pan, Y. (1993) Platinum-group minerals and gold in arsenic-rich ore at the Thompson mine, Thompson nickel belt, Manitoba, Canada. Mineral. Petrol., 49, 127–46.CrossRefGoogle Scholar
Genkin, A.D., Evstigneeva, T.L., Troneva, N. and Vyalsov, L.N. (1976) Majakite, PdNiAs, a new mineral from copper-nickel sulphide ores. Zap. Vses. Miner. Obshch., 105, 698703 (in Russian).Google Scholar
Genkin, A.D., Distler, V.V., Gladyshev, G.D., Filimonova, A A., Evstigneeva, T.L., Kovalenker, V.A., Laputina, I.P., Smirnov, A.V. and Grokhovskaya, T.L. (1981) Sulphide Copper-Nickel Ores of the Noril’sk Deposits. Nauka, Moscow (in Russian).Google Scholar
Gervilla, F., Makovicky, E., Makovicky, M. and Rose-Hansen, J. (1994) The system Pd-Ni-As at 790° and 450°C. Econ. Geol., 89, 1630–9.CrossRefGoogle Scholar
Mulja, T. and Mitchell, R.H. (1990) Platinum-group minerals and tellurides from the Geordie Lake intrusion, Coldwell complex, northwestern Ontario. Canad. Mineral., 28, 489501.Google Scholar
Vuorelainen, Y., Häkli, T.A., Hänninen, E., Papunen, H., Reino, J. and Törnroos, R. (1982) Isomertieite and other platinum-group minerals from the Konttijärvi layered mafic intrusion, Northern Finland. Econ. Geol., 77, 1511–8.CrossRefGoogle Scholar