Tennantite
| Tennantite | |
|---|---|
A sample of tennantite
|
|
| General | |
| Category | Sulfosalt minerals |
| Formula (repeating unit) |
Cu6[Cu4(Fe,Zn)2]As4S13[1] |
| Strunz classification | 02.GB.05 |
| Identification | |
| Color | Flint-gray to iron-black, cherry-red in transmitted light |
| Crystal habit | massive to well formed crystals |
| Crystal system | Cubic Hextetrahedral H-M Symbol (43m) Space Group: I 43m |
| Twinning | Contact and penetration twins |
| Cleavage | None |
| Fracture | Subconchoidal to uneven |
| Tenacity | Somewhat brittle |
| Mohs scale hardness | 3 - 4.5 |
| Luster | Metallic, commonly splendent |
| Streak | reddish gray |
| Diaphaneity | Opaque, except in very thin fragments |
| Specific gravity | 4.65 |
| Polish luster | gray, inclining to black to brown to cherry-red |
| Optical properties | Isotropic |
| Refractive index | n greater than 2.72 |
| References | [1][2][3] |
Tennantite is a copper arsenic sulfosalt mineral with an ideal formula Cu12As4S13. Due to variable substitution of the copper by iron and zinc the formula is Cu6[Cu4(Fe,Zn)2]As4S13.[1] It is gray-black, steel-gray, iron-gray or black in color. A closely related mineral, tetrahedrite (Cu12Sb4S13) has antimony substituting for arsenic and the two form a solid solution series. The two have very similar properties and is often difficult to distinguish between tennantite and tetrahedrite. Iron, zinc, and silver substitute up to about 15% for the copper site.[1][2]
The mineral was first described for an occurrence in Cornwall, England in 1819 and named after the English chemist Smithson Tennant (1761-1815).[1]
It is found in hydrothermal veins and contact metamorphic deposits in association with other Cu–Pb–Zn–Ag sulfides and sulfosalts, pyrite, calcite, dolomite, siderite, barite, fluorite and quartz.[2]
The arsenic component of tennantite causes the metal smelted from the ore to be harder than that of pure copper, because it is a copper-arsenic alloy. In the later 20th century it was found that arsenical coppers had been more widely used in antiquity than had been previously realised, and it has been proposed that discoveries made by smelting ores like tennantite were significant steps in the progress towards the Bronze Age.[4]
See also
References
- ↑ 1.0 1.1 1.2 1.3 1.4 Mindat.org
- ↑ 2.0 2.1 2.2 Handbook of Mineralogy
- ↑ Webmineral data
- ↑ Lua error in package.lua at line 80: module 'strict' not found.
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