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Copper in various phases of several olivine-hypersthene and olivine-bronzite chondrites

Published online by Cambridge University Press:  14 March 2018

M. H. Hey  and
A. J. Easton
M. H. Hey
Affiliation:
British Museum (Natural History), London, S.W.7
A. J. Easton
Affiliation:
British Museum (Natural History), London, S.W.7
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Summary

Determinations of Cu in separate phases of three olivine-hypersthene and one olivine-bronzite chondrites show that it is very strongly concentrated in the taenite; appreciable amounts are present in the olivine, less in the pyroxene plus plagioclase; it is probable that the copper found in the ‘unattracted, attacked’ fraction is present as metallic copper, and that very little is present in the sulphides.

Type
Research Article
Information
Mineralogical magazine and journal of the Mineralogical Society , Volume 36 , Issue 282 , June 1968 , pp. 855 - 858
Copyright
Copyright © The Mineralogical Society of Great Britain and Ireland 1968

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References

Bradley, (A. J.), Cox, (W. F.), and Goldschmidt, (H. J.), 1941. Journ. Inst. Metals, vol. 67, pp. 189201.Google Scholar
Cohen, (E.), 1894. Meteoritenkunde, Heft 1, p. 53.Google Scholar
Cohen, (E.), 1903. Ibid., Heft 2, p. 200.Google Scholar
Fletcher, (L.), 1894. Min. Mag., vol. 10, p. 287.Google Scholar
Greenland, (L.) and Goles, (G. G.), 1965. Geochimica Acta, vol. 29, p. 1285 [M.A. 17-687].Google Scholar
Greenland, (L.) and Lovering, (1965). Ibid., p. 821 [M.A. 17-686].Google Scholar
Hey, (M. H.), 1966. Catalogue of Meteorites. London (British Museum (Nat. Hist.)).Google Scholar
Köster, (W.), 1930. [Zeits. Metallkunde, vol. 22, p. 289., quoted by Mellor, J. W., Treatise on inorganic and theoretical chemistry, vol. 13, p. 529, London, Longmans, Green, 1934.Google Scholar
Laugier, (A.), 1822. Ann. Physik (Gilbert), vol. 71, p. 208.Google Scholar
Moss, (A. A.), Hey, (M. H.), and Bothwell, (D. I.), 1961. Min. Mag., vol. 32, p. 802.Google Scholar
Moss, (A. A.), Hey, (M. H.), Elliott, (C. J.), and Easton, (A. J.), 1967. Ibid., vol. 36, p. 101.CrossRefGoogle Scholar
Nichiporuk, (W.), 1958. Geochimica Acta, vol. 13, p. 233 [M.A. 14-48].CrossRefGoogle Scholar
Nininger, (H. H.), 1941. Pop. Astron., vol. 49, p. 326 [M.A. 8-93].Google Scholar
Noddack, (I.) and Noddack, (W.), 1930. Naturwiss., vol. 18, p. 757.[M.A. 5-6].Google Scholar
Quirke, (T. T.), 1919. Journ. Geol., vol. 27, p. 431, also Econ. Geol., vol. 14, p. 619.[M.A. 1-101].CrossRefGoogle Scholar
Ramdohr, (P.), 1963. Journ. Geophys. Res., vol. 68, p. 2011 [M.A. 17-57].CrossRefGoogle Scholar
Schmitt, (R. A.), Smith, (R. H.), and Goles, (G. G.), 1965. Journ. Geophys. Res., vol. 70, p. 2419.CrossRefGoogle Scholar
Smales, (A. A.), Mapper, (D.), Morgan, (J. W.), Webster, (R. K.), and Wood, (A. J.), 1958. Proc. 2nd U.. Internat. Conf. Peaceful Uses Atomic Energy, vol. 2, p. 242 [M.A. 14-377].Google Scholar
Smales, (A. A.), Mapper, (D.) and Wood, (A. J.), 1957. Analyst, vol. 82, p. 75 [M.A. 13-250].CrossRefGoogle Scholar
Smith, (L. J.), 1870. Amer. Journ. Sci., ser. 2, vol. 49, p. 331.CrossRefGoogle Scholar
Stromeyer, (F.), 1833. Götting. gelehrte Anzeigen, p. 369.Google Scholar