Abstract
AbstractOscarkempffite, ideally Ag10Pb4(Sb17Bi9)∑=26S48, is a new mineral species found in old material (1929–30) from the Colorada vein, Animas mine, Chocaya Province, Department of Potosi, Bolivia. It is associated with aramayoite, stannite, miargyrite, pyrargyrite and tetrahedrite. Oscarkempffite forms anhedral grains and grain aggregates up to 10 mm across. The mineral is opaque, greyish black with a metallic lustre; it is brittle without any discernible cleavage. In reflected light oscarkempffite is greyish white, pleochroism is distinct, white to dark grey. Internal reflections are absent. In crossed polars, anisotropism is distinct with rotation tints in shades of grey. The reflectance data (%, air) are: 39.9, 42.6 at 470 nm, 38.6, 41.7 at 546 nm, 38.1, 41.2 at 589 nm and 37.3, 40.6 at 650 nm. Mohs hardness is 3–3½, microhardness VHN50 exhibits a range 189–208, with a mean value 200 kg mm–2. The average results of four electron-microprobe analyses in a grain are: Cu 0.24(7), Ag 14.50(8), Pb 11.16(14), Sb 28.72(16), Bi 24.56(17), S 20.87(5), total 100.05(6) wt.%, corresponding to Cu0.24Ag9.92Pb4.00Sb17.36Bi8.64S47.84 (on the basis of Me + S = 88 apfu). The simplified formula, Ag10Pb4Sb17Bi9S48, is in accordance with the results of a crystal-structure determination. The density, 5.8 g cm–3, was calculated using the ideal formula. Oscarkempffite has an orthorhombic cell with a = 13.199(2), b = 19.332(3), c = 8.249(1) Å, V = 2116.3(5) Å3, space group Pnca and Z = 1. The strongest eight lines in the (calculated) powder-diffraction pattern are [d in Å(I)hkl]: 3.66(35)(122), 3.37(70)(132), 3.34(100)(250), 2.982(55)(312), 2.881(86)(322), 2.733(29)(332), 2.073(27)(004) and 2.062(31)(182). Comparison with gustavite, andorite and roshchinite confirms its independence as a mineral species.
Highlights
The lillianite homologous series (Makovicky and Karup-Møller, 1977a, b) was defined for Pb-Bi-Ag sulfosalts it was noticed already from the start that three antimony-based phases andorite, ramdohrite and fizelyite (Hellner, 1958) belonged to the same structural family.The andorite – ramdohrite branch of the lillianite series was subsequently studied in detail byMoëlo et al, (1989)
Phases belonging to the lillianite homologous series are composed of slabs of the slightly distorted PbS archetypal structure, cut and mirror-twinned on (113)PbS
Bi-based case, an orthorhombic Bbmm structure exists for substitutions of up to about 60%; whereas a monoclinic P21/c superstructure is present for substitutions close to 100% (Makovicky and Karup-Møller 1977b)
Summary
The lillianite homologous series (Makovicky and Karup-Møller, 1977a, b) was defined for Pb-Bi-Ag sulfosalts it was noticed already from the start that three antimony-based phases andorite, ramdohrite and fizelyite (Hellner, 1958) belonged to the same structural family.The andorite – ramdohrite branch of the lillianite series was subsequently studied in detail byMoëlo et al, (1989). The lillianite homologous series (Makovicky and Karup-Møller, 1977a, b) was defined for Pb-Bi-Ag sulfosalts it was noticed already from the start that three antimony-based phases andorite, ramdohrite and fizelyite (Hellner, 1958) belonged to the same structural family.
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