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Skaergaardite, PdCu, a new platinum-group intermetallic mineral from the Skaergaard intrusion, Greenland

¹ Centre for New Technologies, Svetlanovsky ave. 75-41, St. Petersburg, 195427 Russia
² Department of Earth Sciences, Laurentian University, Ramsy Lake Road, Sudbury, Ontario, Canada
³ Cabri Consulting Inc., 99, Fifth Avenue, Suite 122, Ottawa, Ontario, Canada K1S 5P5
⁴ CANMET/MMSL, Ottawa, Canada K1A 0G1
⁵ Geological Survey of Denmark and Greenland, Øster Voldgade 10, DK-1350 Copenhagen K, Denmark
⁶ The Natural History Museum, Cromwell Road, London SW7 5BD, UK

^* E-mail: rudash{at}online.ru

Skaergaardite, PdCu, is a new mineral discovered in the Skaergaard intrusion, Kangerdlugssuaq area, East Greenland. It occurs in a tholeitiic gabbro associated with plagioclase, clinopyroxene, orthopyroxene, ilmenite, titanian magnetite, fayalite and accessory chlorite-group minerals, ferrosaponite, a member of the annite–phlogopite series, hornblende, actinolite, epidote, calcite, ankerite, apatite and baddeleyite. The mineral is found in composite microglobules composed of bornite, chalcocite, digenite, chalcopyrite, with rare cobalt pentlandite, cobaltoan pentlandite, sphalerite, keithconnite, vasilite, zvyagintsevite, (Cu,Pd,Au) and Pt-Fe-Cu-Pd alloys, unnamed PdCu₃, (Pd,Cu,Sn), Au₃Cu and PdAuCu. Skaergaardite occurs as droplets, equant grains with rounded outlines, subhedral to euhedral crystals and as irregular grains that vary in size from 2 to 75 µm, averaging 22 µm. It is steel grey with a bronze tint, has a black streak, a metallic lustre and is sectile. Neither cleavage nor fracture was observed. The mineral has a micro-indentation hardness of VHN₂₅ = 257. It is isotropic, non-pleochroic and exhibits neither discernible internal reflections nor evidence of twinning. Skaergaardite varies from bright creamy white (associated with bornite and chalcopyrite) to bright white (associated with digenite and chalcocite). Reflectance values in air (and in oil) are: 58.65 (47.4) at 470 nm, 62.6 (51.1) at 546 nm, 64.1 (52.8) at 589 nm and 65.25 (53.95) at 650 nm. The average of 311 electron-microprobe analyses gives: Pd 58.94, Pt 1.12, Au 2.23, Cu 29.84, Fe 3.85, Zn 1.46, Sn 1.08, Te 0.28 and Pb 0.39, total 99.19 wt.%, corresponding to (Pd_0.967Au_0.020Pt_0.010 ) _0.997 (Cu_0.820 Fe_0.120 Zn_0.039Sn_0.016Te_0.004Pb_0.003)_1.002. The mineral is cubic, space group Pm3m, a = 3.0014(2) Å, V = 27.0378 ų, Z = 1. D_calc is 10.64 g/cm³. The six strongest lines in the X-ray powder-diffraction pattern [d in Å(I)(hkl)] are: 2.122(100)(110), 1.5000(20)(200), 1.2254(50)(211), 0.9491(20)(310), 0.8666(10)(222), 0.8021(70)(321). The mineral has the CsCl-type structure. It is believed to be isostructural with wairauite (CoFe), synthetic CuZn (ß-brass) and is structurally related to hongshiite (PtCu). Skaergaardite developed from a disordered Pd-Cu-rich metal alloy melt that had exsolved from an earlier Cu-(Fe) sulphide melt. Ordering of Pd and Cu (beginning at T 600°C) results in development of the CsCl structure from a disordered face-centred cubic structure.

KEYWORDS: skaergaardite, Pd-Cu intermetallic, new mineral species, CsCl-type structure, platinum-group elements, hydroseparation, Skaergaard intrusion, Greenland, Duluth intrusion, Minnesota

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