DOCUMENTATION_FORMAT: MINERAL
SAMPLE_ID: HS279.1B, HS279.2B, HS279.3B, HS279.4B
MINERAL_TYPE: Oxide
MINERAL: Cassiterite (Rutile group)
FORMULA: SnO2
FORMULA_HTML: SnO2
COLLECTION_LOCALITY: Nigeria
ORIGINAL_DONOR: Hunt and Salisbury Collection
CURRENT_SAMPLE_LOCATION: USGS Denver Spectroscopy Laboratory
ULTIMATE_SAMPLE_LOCATION: USGS Denver Spectroscopy Laboratory
SAMPLE_DESCRIPTION:
Close to SnO2 with Sn 78.6%, O 21.4%. Small amounts of Fe+3 may be present and lesser amounts of Nb and Ta substitute for Sn. The structure is that of rutile.
"O-2. Cassiterite. Nigeria (279B). Cassiterite, SnO2, is the most important ore of tin. It is often found in hydrothermal veins or pegmatites, but also forms as a result of secondary processes in the oxidation zone of weathered tin deposits. Ferric iron is usually present as well as small amounts of tantalum and niobium (columbium). Because features due to the Sn2+ ion occur only in the ultraviolet, it is the presence of impurities which color the cassiterite so that it is commonly reddish brown to almost black. This particular sample is a dark reddish brown massive variety, with inclusions of limonite and quartz. The fall-off in reflectivity of this sample toward the blue we attribute to the presence of iron (0.2% by weight), which produces a tailing off of the absorption edge of the conduction band due to extrinsic absorption. Near-infrared iron bands, which are seen in other minerals in this series, are not displayed by cassiterite, because the iron is not in an octahedral site. In addition, the low reflectivity in the 1µ region would tend to quench any bands, such as should be displayed by a limonitic contaminant. The principal effect of this contaminant is seen in the largest particle size range, which has a slightly higher reflectivity than the 74- 250µ size range. Inspection of the 250-1200µ sample reveals that light colored limonite and quartz inclusions are present as individual grains in this size range, which probably explains its higher reflectivity. The reflectivity of all size ranges is reduced substantially in the infrared after acid leaching has removed most of the ferric oxide."
Hunt, G.R., J.W. Salisbury, and C.J. Lenhoff, 1971, Visible and near-infrared spectra of minerals and rocks: III. Oxides and hydroxides. Modern Geology, v. 2, p. 195-205.
The .3B spectrum measured on the Beckman goes to 0.2 µm, considerably shorter than the Hunt and others spectrum in the above paper. From the new spectrum, we can see that the features are not those of limonite. However, the limonite impurity may brighten the spectrum slightly. Roger N. Clark
Grain size fractions are indicated by the extension after the sample number:
.1B = <5 µm
.2B = <74 µm
.3B = 74-250 µm
.4B = 250-1200 µm
END_SAMPLE_DESCRIPTION.
XRD_ANALYSIS:
40 kV - 30 mA, 7.0-9.5 keV
File: cstrt279.out, -.mdi
Reference: JCPDS 41-1445
Found: cassiterite
Quartz sought but not found
Comment: Exceptionally sharp peaks indicate high degree of
crystallinity and compositional homogeneity. Found all reflections
with intensity > 1%. No other reflections present.
J.S. Huebner, J. Pickrell, T. Schaefer, written communication 1994
END_XRD_ANALYSIS:
COMPOSITIONAL_ANALYSIS_TYPE: None # XRF, EPMA, ICP(Trace), WChem
COMPOSITION_TRACE: None
None
COMPOSITION_DISCUSSION:
END_COMPOSITION_DISCUSSION.
MICROSCOPIC_EXAMINATION:
Mode:
77-82 vol% cassiterite
10-15 vol% limonite grains
8 vol% magnetite (may be intergrown with cassiterite)
Translucent red, high birefringence, weak pleochroism, all consistent with cassiterite. Acid wash and Franz-separator treatment may be able to remove impurities. G. Swayze.
END_MICROSCOPIC_EXAMINATION.
SPECTROSCOPIC_DISCUSSION:
END_SPECTROSCOPIC_DISCUSSION.
SPECTRAL_PURITY: 1c2_3_4_ # Cassiterite HS279.1B # 1= 0.2-3, 2= 1.5-6, 3= 6-25, 4= 20-150 microns
SPECTRAL_PURITY: 1c2_3_4_ # Cassiterite HS279.2B # 1= 0.2-3, 2= 1.5-6, 3= 6-25, 4= 20-150 microns
SPECTRAL_PURITY: 1c2b3b4b # Cassiterite HS279.3B # 1= 0.2-3, 2= 1.5-6, 3= 6-25, 4= 20-150 microns
SPECTRAL_PURITY: 1c2_3_4_ # Cassiterite HS279.4B # 1= 0.2-3, 2= 1.5-6, 3= 6-25, 4= 20-150 microns