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Clark, A. M., Criddle, A. J., Fejer, E. E. (1974) Palladium arsenide-antimonides from Itabira, Minas Gerais, Brazil. Mineralogical Magazine, 39 (305). 528-543 doi:10.1180/minmag.1974.039.305.05

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Reference TypeJournal (article/letter/editorial)
TitlePalladium arsenide-antimonides from Itabira, Minas Gerais, Brazil
JournalMineralogical Magazine
AuthorsClark, A. M.Author
Criddle, A. J.Author
Fejer, E. E.Author
Year1974 (March)Volume39
Page(s)528-543Issue305
PublisherMineralogical Society
Download URLhttps://rruff.info/doclib/MinMag/Volume_39/39-305-528.pdf+
DOIdoi:10.1180/minmag.1974.039.305.05Search in ResearchGate
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Mindat Ref. ID6729Long-form Identifiermindat:1:5:6729:8
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Full ReferenceClark, A. M., Criddle, A. J., Fejer, E. E. (1974) Palladium arsenide-antimonides from Itabira, Minas Gerais, Brazil. Mineralogical Magazine, 39 (305). 528-543 doi:10.1180/minmag.1974.039.305.05
Plain TextClark, A. M., Criddle, A. J., Fejer, E. E. (1974) Palladium arsenide-antimonides from Itabira, Minas Gerais, Brazil. Mineralogical Magazine, 39 (305). 528-543 doi:10.1180/minmag.1974.039.305.05
In(1974, March) Mineralogical Magazine Vol. 39 (305) Mineralogical Society
Abstract/NotesSummaryThe arsenopalladinite concentrates from Itabira, Minas Gerais, Brazil, have been found to contain three arsenide-antimonides of palladium, namely arsenopalladinite, atheneïte, and isomertieite. The second and third of these are new minerals.Arsenopalladinite, redefined, is Pd5(As,Sb)2 and triclinic with a 7·399, b 14·063, c 7·352 Å, α 92° 03′, β 118° 57′, γ 95° 54′. Z = 6. Dmeas = 10·4, Dcalc = 10sd46. In reflected light arsenopalladinite is white with a yellowish creamy hue. The mineral shows complex polysynthetic twinning and is strongly anisotropic. Reflectance measurements at 470, 546, 589, and 650 nm respectively gave: in air, 46·67–48·86, 49·97–52·90, 52·82–54·96, and 55·61–57·72 in oil, 32·30–35·07, 37·12–39·40, 38·97–41·32, and 40·28–43·07. VHN100 379–449, av. 407.Atheneïte, (Pd, Hg)3As, is hexagonal, space group P6/mmm and cell dimensions a 6·798, c 3·483 Å. The strongest lines of the powder pattern are 2·423 vvs (111) , 2·246 vs (201), 1·371 s (212), 1·302 s (302), 1·259 s (321). Z =2. Dcalc = 10·16. In reflected light atheneïte is white with a faint bluish tint compared to arsenopalladinite. Anisotropy distinct. Untwinned. Reflectivities for the two grains examined are: in air, 470 nm 47·51–54·75, 47·43–51·18; 546 nm 50·79–58·01, 51·36–54·36; 589 nm 53·13–61·01, 53·24–55·86; 650 nm 55·94–63·13, 54·76–56·77; in oil, 470 nm 30·03–43·67, 33·46–37·31; 546 nm 33·42–47·75, 37·64–41·07; 589 nm 35·80–49·04, 39·40–42·24; 650 nm 38·25–50·49, 41·07–42·85. VHN100 419–442, av. 431.Isomertieite, (Pd,Cu)5(Sb,As)2, is cubic, space group Fd3m, a 12·283 Å. The strongest lines of the powder pattern are 2·356 vs (333, 511), 2·167 vvs (440), 0·8599 s (10.10.2, 14.2.2), 0·8206 s (12.8.4), 0·7996 s (10.10.6, 14.6.2), 0·7881 s (999, 1.11.1, 13·7·5, 15·3·3), 0·7801 s (12.10.2, 14.6.4). Z = 16. Dcalc = 10·33. In reflected light isomertieite is a pale yellow colour. One grain was isotropic, three others displayed weak anisotropy. Untwinned. Reflectance measurements at 470, 546, 589, and 650 nm gave respectively: in air, 44·74–46·46, 52·23–53·25, 55·05-57·49, 56·97–62·03; in oil, 31·04–31·40, 38·42–38·90, 40·80–42·16, and 42·91–45·63. VHN100 587–597, av. 592.Quantitative colour values are also given, and the chemical and optical properties are compared with the related mineral, stibiopalladinite.

Mineral Pages

MineralCitation Details
Arsenopalladinite
Atheneite
Isomertieite

Mineral Occurrences

LocalityMineral(s)
Itabira, Minas Gerais, Brazil Arsenopalladinite, Atheneite, Isomertieite

See Also

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Davis, R. J., Clark, A. M., Criddle, A. J. (1977) Palladseïte, a new mineral from Itabira, Minas Gerais, Brazil. Mineralogical Magazine, 41 (317) 123 doi:10.1180/minmag.1977.041.317.18
Olivo, Gema Ribeiro, Gauthier, Michel (1995) Palladium minerals from the Cauê iron mine, Itabira District, Minas Gerais, Brazil. Mineralogical Magazine, 59 (396) 455-463 doi:10.1180/minmag.1995.059.396.07
Olivo, G. R., Gauthier, M., Bardoux, M. (1994) Palladian gold from the cauê iron mine, Itabira District, Minas Gerais, Brazil. Mineralogical Magazine, 58 (393) 579-587 doi:10.1180/minmag.1994.058.393.05
Stumpfl, E. F., Tarkian, M. (1974) Vincentite, a new palladium mineral from south-east Borneo. Mineralogical Magazine, 39 (305) 525-527 doi:10.1180/minmag.1974.039.305.04
Clark, A. M., Criddle, A. J. (1982) Palladium minerals from Hope's Nose, Torquay, Devon. Mineralogical Magazine, 46 (340) 371-377 doi:10.1180/minmag.1982.046.340.13
Prescott, B. E., Nassau, K. (1978) Black elbaite from Corrego do Urucum, Minas Gerais, Brazil. Mineralogical Magazine, 42 (323) 357-359 doi:10.1180/minmag.1978.042.323.05
Clark, A. M., Fejer, E. E. (1976) Zoned genthelvite from the Cairngorm Mountains, Scotland. Mineralogical Magazine, 40 (314) 637-639 doi:10.1180/minmag.1976.040.314.11
Clark, A. M. (1974) A tantalum-rich variety of sphene. Mineralogical Magazine, 39 (305) 605-607 doi:10.1180/minmag.1974.039.305.16
Clark, A. M., Fejer, E. E. (1978) Tapiolite, its chemistry and cell dimensions. Mineralogical Magazine, 42 (324) 477-480 doi:10.1180/minmag.1978.042.324.09
Clark, A. M., Fejer, E. E., Couper, A. G., Jones, G. C. (1984) Sweetite, a new mineral from Derbyshire. Mineralogical Magazine, 48 (347) 267-269 doi:10.1180/minmag.1984.048.347.12
Fejer, E. E., Clark, A. M., Couper, A. G., Elliott, C. J. (1977) Claringbullite, a new hydrated copper chloride. Mineralogical Magazine, 41 (320) 433-436 doi:10.1180/minmag.1977.041.320.02
 
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