Hostname: page-component-76fb5796d-skm99 Total loading time: 0 Render date: 2024-04-25T07:18:42.823Z Has data issue: false hasContentIssue false
  • English
  • Français

Linnaeite series minerals from the Kalgoorlie district, Western Australia

Published online by Cambridge University Press:  05 July 2018

J. Ostwald
J. Ostwald*
Affiliation:
The Broken Hill Proprietary Company Limited, Central Research Laboratories, Shortland, N.S.W. 2307, Australia
Get access Rights & Permissions [Opens in a new window]

Summary

Five members of the linnaeite series of sulphides linnaeite Co3S4, siegenite (Co, Ni)3S4, carrollite Co2CuS4, violarite Ni2FeS4, and polydymite Ni3S4 occur in nickel-sulphide-mineralized rocks in areas adjacent to the Kambalda and Scotia deposits of the Kalgoorlie district, Western Australia. Linnaeite, siegenite, carrollite, and polydymite occur in trace amounts as disseminated grains and veinlets. Violarite is also found as disseminations but its major occurrence is in the supergene enriched zones of the ore deposits. Aspects of their mineralogy, including mode of occurrence, general mineragraphy, reflectance at 546 nm, 589 nm and 644 nm, microhardness, and electron probe microanalyses are described.

Type
Research Article
Information
Mineralogical Magazine , Volume 42 , Issue 321 , March 1978 , pp. 93 - 98
Copyright
Copyright © The Mineralogical Society of Great Britain and Ireland 1978

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Bannister, (F. A.), 1941. Mineral. Mag. 26, 16.Google Scholar
Bowie, (S. H. U.), 1967. In Physical Methods in Determinative Mineralogy (ed. Zussman, J.). Academic Press.Google Scholar
Buchan, (R.) and Blowes, (J. H.), 1968. Can. Min. Met. Bull. 61, 529.Google Scholar
Christie, (D.), 1975. Austr. Inst. Min. Met. Monograph 5.Google Scholar
Duncumb, (P.) and Reed, (S. J. B.), 1968. U.S. Nat. Bur. Standards, Publ. 289.Google Scholar
Duncumb, (p.) and Shields, (P. K.), 1966. The Electron Microprobe, Wiley.Google Scholar
Keele, (R. A.) and Nickel, (E. H.), 1974. Econ. Geol. 69, 1109.CrossRefGoogle Scholar
Leow, (J. H.), 1966. Econ. Geol. 61, 598.CrossRefGoogle Scholar
Moeskops, (P. G.), 1975. Amdel Bull. 20, 19.Google Scholar
Nassim, (G. L.), 1949. Econ. Geol. 64, 143.CrossRefGoogle Scholar
Nayak, (V. K.), 1969. Metallography, 2, 57.CrossRefGoogle Scholar
Nickel, (E. H.), 1973. Austr. lnst. Min. Met. Conference, Perth. Western Australia.Google Scholar
Nickel, (E. H.), Ross, (J. R.), and Thornber, (M. R.), 1974. Econ. Geol. 69, 93.CrossRefGoogle Scholar
Ostwald, (J.), 1973. Thesis, Macquarie University, Sydney.Google Scholar
Petruk, (W.), Harrison, (D. C.), and Stewart, (J. M.), 1969. Can. Mineral. 9, 597.Google Scholar
Reed, (S. J. B.), 1965. Brit. J. App. Phys. 16, 913.CrossRefGoogle Scholar
Vaughan, (D. J.), Burns, (R. G.), and Burns, (V. M.), 1971. Geochim. Cosmochim. Acta, 35, 365.CrossRefGoogle Scholar
Vaughan, (D. J.), 1973. Miner. Materials News Bull. 3.Google Scholar
Vaughan, (D. J.), 1975. Ibid. 2.Google Scholar
Vokes, (F. M.), 1967. Mineral. Deposita, 2, Ii.CrossRefGoogle Scholar
Wang, (C.) and Yo, (S.), 1963. Sci. Sinica (Peking), 12, 617.Google Scholar
Watmuff, (I. G.), 1974. Mineral. Deposita, 9, 199.CrossRefGoogle Scholar
Woodall, (R. W.) and Travis, (G. N.), 1969. 9th Com. Min. Met. Congr. London, Paper 26.Google Scholar