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Aramayoite

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About AramayoiteHide

03610610015704941205388.jpg
Don Felix Avelino Aramayo
Formula:
Ag3Sb2(Bi,Sb)S6
End-member formula: Ag3Sb2BiS6. Formerly given as Ag(Sb,Bi)S2.
Colour:
Iron-black; deep red (transmitted light)
Lustre:
Metallic
Hardness:
Specific Gravity:
5.602
Crystal System:
Triclinic
Name:
Named in honor of Don Felix Avelino Aramayo (1846 - 1929), Managing Director of the Compagnie Aramayo de Mines en Bolivie.
Isostructural with:
This page provides mineralogical data about Aramayoite.


Classification of AramayoiteHide

Approved, 'Grandfathered' (first described prior to 1959)
First Published:
1926
2.HA.25

2 : SULFIDES and SULFOSALTS (sulfides, selenides, tellurides; arsenides, antimonides, bismuthides; sulfarsenites, sulfantimonites, sulfbismuthites, etc.)
H : Sulfosalts of SnS archetype
A : With Cu, Ag, Fe (without Pb)
3.7.4.1

3 : SULFOSALTS
7 : ø = 2
5.2.16

5 : Sulphosalts - Sulpharsenites and Sulphobismuthites (those containing Sn, Ge,or V are in Section 6)
2 : Sulpharsenites etc. of Ag

Physical Properties of AramayoiteHide

Metallic
Transparency:
Opaque
Colour:
Iron-black; deep red (transmitted light)
Streak:
Black
Hardness:
2½ on Mohs scale
Tenacity:
Sectile
Cleavage:
Perfect
{010} perfect; {100} fair; {001} poor.
Parting:
{101} frequent.
Density:
5.602 g/cm3 (Measured)    5.624 g/cm3 (Calculated)

Optical Data of AramayoiteHide

Type:
Anisotropic
Anisotropism:
Very high in oil
Reflectivity:
400nmR1=38.9%R2= 43.4%
420nmR1=38.8%R2= 42.5%
440nmR1=38.5%R2= 41.9%
460nmR1=38.4%R2= 41.6%
480nmR1=38.2%R2= 41.1%
500nmR1=38.0%R2= 40.9%
520nmR1=37.8%R2= 40.5%
540nmR1=37.5%R2= 40.2%
560nmR1=37.3%R2= 40.0%
580nmR1=37.1%R2= 40.1%
600nmR1=37.0%R2= 40.1%
620nmR1=36.7%R2= 39.9%
640nmR1=36.6%R2= 39.5%
660nmR1=36.2%R2= 39.1%
680nmR1=36.1%R2= 39.0%
700nmR1=36.3%R2= 39.8%

Reflectance graph
Graph shows reflectance levels at different wavelengths (in nm). Top of box is 100%. Peak reflectance is 43.4%.
R1 shown in black, R2 shown in red
Colour in reflected light:
White
Internal Reflections:
Red
Pleochroism:
Visible
Comments:
Distinct in oil

Chemical Properties of AramayoiteHide

Formula:
Ag3Sb2(Bi,Sb)S6

End-member formula: Ag3Sb2BiS6. Formerly given as Ag(Sb,Bi)S2.
Common Impurities:
Cu,Fe

Crystallography of AramayoiteHide

Crystal System:
Triclinic
Class (H-M):
1 - Pinacoidal
Space Group:
P1
Cell Parameters:
a = 7.74 Å, b = 8.84 Å, c = 8.32 Å
α = 100.7°, β = 90°, γ = 103.9°
Ratio:
a:b:c = 0.876 : 1 : 0.941
Unit Cell V:
542.40 ų (Calculated from Unit Cell)
Z:
6
Morphology:
Thin plates
Twinning:
About [_101] with composition plane near {_101}

Crystallographic forms of AramayoiteHide

Crystal Atlas:
Image Loading
Click on an icon to view
Aramayoite - Tabular {010}
3d models and HTML5 code kindly provided by www.smorf.nl.

Toggle
Edge Lines | Miller Indices | Axes

Transparency
Opaque | Translucent | Transparent

View
Along a-axis | Along b-axis | Along c-axis | Start rotation | Stop rotation

X-Ray Powder DiffractionHide

Powder Diffraction Data:
d-spacingIntensity
3.43 Å(20)
3.21 Å(40)
2.806 Å(100)
2.048 Å(20)
1.940 Å(30)
1.705 Å(20)
1.402 Å(20)

Type Occurrence of AramayoiteHide

Reference:
Spencer, L.J., Mountain, E.D. (1926) Aramayoite, a new mineral, from Bolivia. Mineralogical Magazine: 21: 156-162.

Other Language Names for AramayoiteHide

German:Aramayoit
Simplified Chinese:硫铋锑银矿
Spanish:Aramayoita

Common AssociatesHide

Associated Minerals Based on Photo Data:
4 photos of Aramayoite associated with GeocronitePb14(Sb,As)6S23
2 photos of Aramayoite associated with EskimoiteAg7Pb10Bi15S36
2 photos of Aramayoite associated with PyriteFeS2
2 photos of Aramayoite associated with QuartzSiO2
2 photos of Aramayoite associated with JordanitePb14(As,Sb)6S23
1 photo of Aramayoite associated with ProustiteAg3AsS3
1 photo of Aramayoite associated with KobellitePb22Cu4(Bi,Sb)30S69

Related Minerals - Nickel-Strunz GroupingHide

2.HA.05ChalcostibiteCuSbS2Orth. mmm (2/m 2/m 2/m)
2.HA.05EmplectiteCuBiS2Orth. mmm (2/m 2/m 2/m) : Pmna
2.HA.10MiargyriteAgSbS2Mon. 2/m : B2/b
2.HA.20BerthieriteFeSb2S4Orth. mmm (2/m 2/m 2/m)
2.HA.20GaravelliteFeSbBiS4Orth.
2.HA.20CleriteMnSb2S4Orth.
2.HA.25BaumstarkiteAg3Sb3S6Tric. 1 : P1

Related Minerals - Hey's Chemical Index of Minerals GroupingHide

5.2.1SmithiteAgAsS2Mon. 2/m
5.2.2TrechmanniteAgAsS2Trig.
5.2.3ProustiteAg3AsS3Trig. 3m (3 2/m) : R3c
5.2.4XanthoconiteAg3AsS3Mon. 2/m : B2/b
5.2.5Pearceite[Ag9CuS4][(Ag,Cu)6(As,Sb)2S7]Trig. 3m (3 2/m) : P3m1
5.2.6Pearceite-T2acTrig. 3 2 : P3 2 1
5.2.7Argentotennantite-(Zn)Ag6(Cu4Zn2)As4S12SIso. 4 3m : I4 3m
5.2.8MiargyriteAgSbS2Mon. 2/m : B2/b
5.2.9PyrargyriteAg3SbS3Trig. 3m : R3c
5.2.10PyrostilpniteAg3SbS3Mon. 2/m : P21/b
5.2.11StephaniteAg5SbS4Orth. mm2 : Cmc21
5.2.12Polybasite[(Ag,Cu)6(Sb,As)2S7][Ag9CuS4]Mon. 2/m : B2/m
5.2.13BillingsleyiteAg7AsS6Iso. 2 3 : P21 3
5.2.14Polybasite-TacTrig. 3m (3 2/m) : P3m1
5.2.15Freibergite(Ag,Cu,◻)10Fe2+2Sb4S12Iso. 4 3m : I4 3m
5.2.17MatilditeAgBiS2Trig. 3m (3 2/m) : P3m1
5.2.18SchapbachiteAg0.4Pb0.2Bi0.4SIso.
5.2.19PavoniteAgBi3S5Mon. 2/m : B2/m
5.2.20ArcubisiteAg6CuBiS4
5.2.21BohdanowicziteAgBiSe2Trig. 3m (3 2/m) : P3m1
5.2.22SelenostephaniteAg5SbSe4Orth.
5.2.23Benleonardite[Ag6(Sb,As)2S6Te] [Ag9Cu(S,Te)2Te2]Trig. 3m (3 2/m) : P3m1
5.2.24VolynskiteAgBiTe2Orth.

Other InformationHide

Health Risks:
No information on health risks for this material has been entered into the database. You should always treat mineral specimens with care.

References for AramayoiteHide

Reference List:
Sort by Year (asc) | by Year (desc) | by Author (A-Z) | by Author (Z-A)
Spencer, L.J., Mountain, E.D. (1926) Aramayoite, a new mineral, from Bolivia. Mineralogical Magazine: 21: 156-162.
Foshag, W.F. (1927) New mineral names. American Mineralogist: 12: 265-266.
Palache, C., Berman, H., Frondel, C. (1944) The System of Mineralogy of James Dwight Dana and Edward Salisbury Dana Yale University 1837-1892, Volume I: Elements, Sulfides, Sulfosalts, Oxides. John Wiley and Sons, Inc., New York. 7th edition, revised and enlarged: 427-429.
Graham, A.R. (1951) Matildite, aramayoite, miargyrite. American Mineralogist: 36: 436–449.
Mullen, D.J.E., Nowacki, W. (1974) The crystal structure of aramayoite Ag(Sb,Bi)S2. Zeitschrift für Kristallographie: 139: 54-69.
Effenberger, H., Paar, W.H., Topa, D., Criddle, A.J., Fleck, M. (2002) The new mineal baumstarkite and a structural reinvestigation of aramayoite and miargyrite. American Mineralogist: 87: 753-764.

Internet Links for AramayoiteHide

Localities for AramayoiteHide

This map shows a selection of localities that have latitude and longitude coordinates recorded. Click on the symbol to view information about a locality. The symbol next to localities in the list can be used to jump to that position on the map.

Locality ListHide

- This locality has map coordinates listed. - This locality has estimated coordinates. ⓘ - Click for further information on this occurrence. ? - Indicates mineral may be doubtful at this locality. - Good crystals or important locality for species. - World class for species or very significant. (TL) - Type Locality for a valid mineral species. (FRL) - First Recorded Locality for everything else (eg varieties). Struck out - Mineral was erroneously reported from this locality. Faded * - Never found at this locality but inferred to have existed at some point in the past (eg from pseudomorphs.)

All localities listed without proper references should be considered as questionable.
Argentina
 
  • Jujuy Province
    • Rinconada Department
Milka K. de Brodtkorb (1973) 5th Congreso Geologico Argentino 1:63-68, Cordoba.
  • Salta Province
    • Los Andes department
      • El Quevar mining district
Brodtkorb (2002): Las Especies Minerales de la Republica Argentina
        • Incahuasi Valley
Herta Effenberger, Werner Hermann Paar, Dan Topa, Alan J. Criddle and Michel Fleck (2002) The new mineral baumstarkite and a structural reinvestigation of aramayoite and miargyrite American Mineralogist, 87(5-6):753-764; ROBL, Klaus; BRODTKORB, Milka K.de and AMETRANO, Silvia. The Miocene epithermal mineralization of the Quevar Stratovolcan Complex, Salta. Rev. Asoc. Geol. Argent. [online]. 2009, vol.64, n.3, pp. 525-539
  • Santa Cruz Province
    • Deseado department
      • Deseado massif
        • Tres Cerros
Jovic, S.M., Guido, D.M., Schalamuk, I.B., Ríos, F.J., Tassinari, C.C.G., Recio. C. (2011): Pingüino In-bearing polymetallic vein deposit, Deseado Massif, Patagonia, Argentina: characteristics of mineralization and ore-forming fluids. Mineralium Deposita, 46, 257-271.
Austria
 
  • Salzburg
    • Tamsweg District
      • Murwinkel
        • Rotgülden
- Putz, H.; Paar, W. H.; Topa, D.; Horner, J.; Lüders, V. (2003): Structurally controlled gold and sulfosalt ore mineralization: the Altenberg example, Salzburg Province, Austria. Mineralogy and Petrology 78, 111-138.
      • Ramingstein
Handbook of Mineralogy
Bolivia (TL)
 
  • Potosí
    • Sud Chichas Province
      • Chocaya-Animas (Animas-Chocaya)
[MinRec 32:461]; Torró, L., Cazorla, M., Melgarejo, J. C., Camprubí, A., Tarrés, M., Gemmrich, L., ... & Mollinedo, D. (2019). Indium Mineralization in the Volcanic Dome-Hosted Ánimas–Chocaya–Siete Suyos Polymetallic Deposit, Potosí, Bolivia. Minerals, 9(10), 604.
          • Colorada vein
Topa, D., Paar, W.H., Makovicky, E., Stanley, C.J., Roberts, A.C. (2016): Oscarkempffite, Ag10Pb4(Sb17Bi9)Σ26S48, a new Sb-Bi member of the lillianite homologous series. Mineralogical Magazine, 80, 809-817
[MinRec 32:461]
Kempff, O., Paar, W.H., Tawackoli, S.: "Minerales de Bolivia", 115pp (La Paz, 2009)
Chile
 
  • Arica and Parinacota
    • Parinacota Province
      • Ticnamar area
Cecioni A, Cornejo C, Ruz L.; Choquelimpie, un yacimiento epitermal", Actas n. 1 del Congreso Geológico Chileno, pag.181/183, agosto 2000; Econ Geol (1991) 86:1206-1221
  • Coquimbo
    • Elqui Province
Handbook of Mineralogy
China
 
  • Guangxi
    • Hechi
      • Nandan County
        • Dachang Sn-polymetallic ore field
Yingchen Ren (1999): Contributions to Geology and Mineral Resources Research 14(1), 1-12, 38
  • Inner Mongolia
    • Hulunbuir City (Hulunbei'er Prefecture)
      • New Barag Right Banner (Xin Barag Youqi)
Zhicheng Lu, Peiping Zhang, Guozheng Duan, Libo Hao, and Dianchao Li (2002): Acta Mineralogica Sinica 22(1), 75-80
  • Jiangxi
    • Ganzhou
      • Yudu Co.
        • Yinkeng polymetallic ore field
Mingxing Shi and Guirong Gao (2006): Resources Survey and Environment 27(2), 164-172
Czech Republic
 
  • Central Bohemian Region
Pažout, R., Sejkora, J., Šrein, V. (2017): Bismuth and bismuth–antimony sulphosalts from Kutná Hora vein Ag–Pb–Zn ore district, Czech Republic. Journal of Geosciences 62, 59-76.
Pazout, R., Sejkora, J., & Srein, V. (2017). Bismuth and bismuth-antimony sulphosalts from Kutna Hora vein Ag-Pb-Zn ore district, Czech Republic. Journal of GEOsciences, 62(1), 59-76.
France
 
  • Grand Est
    • Haut-Rhin
      • Colmar-Ribeauvillé
        • Ste Marie-aux-Mines
P&T N°23-24, H. BARI 1982, Minéralogie des filons du Neuenberg à Sainte Marie aux Mines (Haut-Rhin).
            • Sankt Jakob vein
Wittern, Journée: "Mineralien finden in den Vogesen", von Loga (Cologne), 1997
  • Nouvelle-Aquitaine
    • Haute-Vienne
      • Saint-Yrieix-la-Perche
Anthony, Bideaux, Bladh, Nichols: "Handbook of Mineralogy", Vol. 1, 1990
  • Pays de la Loire
    • Vendée
      • Les Herbiers
Y. Moëlo, E. Makovicky and S. Karup-Moller : "Sulfures complexes plombo-argentifères : minéralogie et cristallochimie de la série andorite-fizelyite", Documents du BRGM N° 167, 1989.
Japan
 
  • Hokkaidō Prefecture
    • Ishikari Subprefecture
Mineral.Journ.Japan (1985) 12, 341-348
  • Miyagi Prefecture
    • Kurihara
The Mineral Species of Japan (5th ed) Matsubara
  • Yamagata Prefecture
The Mineral Species of Japan (5th ed) Matsubara
Peru
 
  • Huancavelica
    • Angaraes Province
Crowley, Jack A., Currier, Rock H., & Szenics, Terry (1997) Mines and Minerals of Peru. Mineralogical Record, Vol.28, No.4. 98p.
Handbook of Mineralogy
    • Castrovirreyna Province
      • Castrovirreyna District
Lewis Jr, R. W. (1964). The geology, mineralogy and paragenesis of the Castrovirreyna lead-zinc-silver deposits, Peru (OFR No. 64-103). US Geological Survey,.
Handbook of Mineralogy; Lewis Jr, R. W. (1964). The geology, mineralogy and paragenesis of the Castrovirreyna lead-zinc-silver deposits, Peru (OFR No. 64-103). US Geological Survey,.
Poland
 
  • Lower Silesian Voivodeship
    • Kłodzko Co.
      • Gmina Stronie Śląskie
Eligiusz Szełęg collection (SEM/EDS identification)
Russia
 
  • Sakha Republic (Yakutia)
    • Indigirka River Basin
      • Ust'-Nera
Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow; American Mineralogist, Volume 79, pages 763-767, 1994
Slovakia
 
  • Košice Region
    • Rožňava Co.
      • Rožňava (Rosenau; Rozsnyó)
Pauliš P., Ďuďa R., 2002:Nejznámejší mineralogická nalezište Slovenska. Kuttna, Kutná Hora, 136p
Tajikistan
 
  • Gorno-Badakhshan
    • Pamir Silver District
      • Bazardara ore cluster
Pavlova, G.G., and Borisenko, A.S. (2009): Ore Geology Reviews 35, 164-185.
Pavlova, G.G., and Borisenko, A.S. (2009): Ore Geology Reviews 35, 164-185.
USA
 
  • Alaska
    • Bethel Census Area
      • Aniak Mining District
U.S. Geological Survey, 2008, Alaska Resource Data File (ARDF): U.S. Geological Survey Open-File Report 2008-1225.
  • Montana
    • Flathead Co.
      • Hog Heaven Mining District (Flathead Mining District)
        • Kofford Ridge
www.cannonmicroprobe.com/Mineral_Specimens.htm
 
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