Sunday, July 19, 2009

Hematite

Hematite

Hematite

Hematite (blood ore) from the US state ofMichigan (unknown scale)
General
CategoryOxide mineral
Chemical formulairon(III) oxide, Fe2O3, α-Fe2O3
Identification
ColorMetallic gray to earthy red tones
Crystal habitTabular to thick crystals
Crystal systemHexagonal (rhombohedral)
CleavageNone
FractureUneven to sub-conchoidal
Mohs Scalehardness5.5 - 6.5
LusterMetallic to splendent
StreakBright red to dark red
Specific gravity4.9 - 5.3
Refractive indexOpaque
PleochroismNone
References[1][2]
Hematite in SEM, magnification 100x
Close-up of hematitic Banded Iron Formation specimen from Upper Michigan. Scale bar is 5.0 mm.

Hematite, also spelled as hæmatite, is the mineral form of Iron(III) oxide (Fe2O3), one of several iron oxides. Hematite crystallizes in the rhombohedral system, and it has the samecrystal structure as ilmenite and corundum. Hematite and ilmenite form a complete solid solution at temperatures above 950°C.

Hematite is a mineral, colored black to steel or silver-gray, brown to reddish brown, or red. It ismined as the main ore of iron. Varieties include kidney ore, martite (pseudomorphs aftermagnetite), iron rose and specularite (specular hematite). While the forms of hematite vary, they all have a rust-red streak. Hematite is harder than pure iron, but much more brittle.Maghemite is a hematite- and magnetite-related oxide mineral.

Huge deposits of hematite are found in banded iron formations. Grey hematite is typically found in places where there has been standing water or mineral hot springs, such as those inYellowstone National Park in the United States. The mineral can precipitate out of water and collect in layers at the bottom of a lake, spring, or other standing water.. Hematite can also occur without water, however, usually as the result of volcanic activity.

Clay-sized hematite crystals can also occur as a secondary mineral formed by weatheringprocesses in soil, and along with other iron oxides or oxyhydroxides such as goethite, is responsible for the red color of many tropical, ancient, or otherwise highly weathered soils.

Good specimens of hematite come from England, Mexico, Brazil, Australia, United States andCanada.

Etymology and history

Ancient Egyptian cylindrical seal (left) made from hematite with corresponding impression (right), approximately 14th century BC

The name hematite is derived from the Greek word for blood (haima ἁιμα) because hematite can be red, as in rouge, a powdered form of hematite. The color of hematite lends it well in use as a pigment.

Ochre is a clay that is colored by varying amounts of hematite, varying between 20% and 70%[3]. Red ochre contains unhydrated hematite, whereas yellow ochre contains hydratedhematite (Fe2O3H2O).. The principal use of ochre is for tinting with a permanent color[3].

The red chalk winning of this mineral was one of the earliest in history of mankind. The powdery mineral was first used 164,000 years ago by the Pinnacle-Point man obviously for social differentiation[4]. Hematite residues are also found in old graveyards from 80,000 years ago. Near Rydno in Poland and Lovas in Hungary, palaeolitic red chalk mines have been found that are from 5000 BC, belonging to the Linear Pottery culture at the Upper Rhine.

Rich deposits of hematite have been found on the island of Elba that have been mined till the time of the Etruscans.

Ancient Egyptian booby trap

In 2001, Egyptian government archaeologist Zahi Hawass was the first to enter a previously undisturbed tomb, believed to be that of an ancient regional mayor, in the Bahariya Oasisbelow the town of Bawiti. Upon entering the burial chamber, Hawass discovered a booby trapconsisting of 8 inches of finely powdered hematite dust covering the floor and sarcophagus.[5]When disturbed by a tomb robber, the sharp, metallic dust was intended to become airborne and irritate the skin, eyes and mucous membranes, eventually causing lethal siderosis if exposed for long enough. The archaeological team was forced to retreat and don full body suits and respirators in order to confirm the identity of the mummy. Hawass cites the ancient Egyptians' experience with powdered hematite as a paint pigment as proof that they were aware of its irritating properties.[6]

Jewelry

Hematite carving, 5 cm (2 in) long.

Hematite's popularity in jewelry was at its highest in Europe during the Victorian era, and has since seen a strong resurgence in North America, especially in the western United States.. Due to it delicate nature, the mineral is found only in precious jewelry. Extreme care should be taken in handling hematite items due to the material's susceptibility to irreversible damage.

It is also used in art such as intaglios where it is used for making hollow portraits.

Magnetism

crystal structure of hematite

Hematite is an antiferromagnetic material below the Morin transition at 250 K, and a canted antiferromagnet or weakly ferromagnetic above the Morin transition and below its Néel temperature at 948K, above which it is paramagnetic.

The magnetic structure of a-hematite was the subject of considerable discussion and debate in the 1950s because it appeared to be ferromagnetic with a Curie temperature of around 1000 K, but with an extremely tiny moment (0.002 µB). Adding to the surprise was a transition with a decrease in temperature at around 260 K to a phase with no net magnetic moment. It was shown that the system is essentially antiferromagnetic but that the low symmetry of the cation sites allows spin–orbit coupling to cause canting of the moments when they are in the plane perpendicular to the c axis. The disappearance of the moment with a decrease in temperature at 260 K is caused by a change in the anisotropy which causes the moments to align along the c axis. In this configuration, spin canting does not reduce the energy.[7][8]

Hematite is part of a complex solid solution oxyhydroxide system having various degrees of water, hydroxyl group, and vacancy substitutions that affect the mineral's magnetic and crystal chemical properties.[9] Two other end-members are referred to as protohematite and hydrohematite.

Iron from mine tailings

Hematite is present in the waste tailings of iron mines. A recently developed process,magnetation, uses huge magnets to glean waste hematite from old mine tailings inMinnesota's vast Mesabi Range iron district.[10]

Hematite on Mars

Image mosaic from the Mars Exploration Rover Microscopic Imager shows Hematitespherules partly embedded in rock at the Opportunity landing site. (Scale: image is approximately 5 cm (2 in) across)

The spectral signature of hematite was seen on the planet Mars by the infrared spectrometeron the NASA Mars Global Surveyor ("MGS") and 2001 Mars Odyssey spacecraft in orbit around Mars.[11] The mineral was seen in abundance at two sites [12] on the planet, the Terra Meridiani site, near the Martian equator at 0° longitude, and the second site Aram Chaos near the Valles Marineris.[13] Several other sites also showed hematite, e.g., Aureum Chaos.[14]Because terrestrial hematite is typically a mineral formed in aqueous environments, or by aqueous alteration, this detection was scientifically interesting enough that the second of the two Mars Exploration Rovers was targeted to a site in the Terra Meridiani region designatedMeridiani Planum. In-situ investigations by the Opportunity rover showed a significant amount of hematite, much of it in the form of small spherules that were informally tagged by the science team "blueberries". Analysis indicates that these spherules are apparentlyconcretions formed from a water solution.

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