Chromite Sand

What Is Chromite

What is Chromite?
Chromite is an oxide mineral composed of chromium, iron, and oxygen (FeCr2O4). It is dark gray to black in color with a metallic to submetallic luster and high specific gravity. It occurs in basic and ultrabasic igneous rocks and in the metamorphic and sedimentary rocks that are produced when chromite-bearing rocks are altered by heat or weathering.

Chromite is important because it is the only economic ore of chromium, an essential element for a wide variety of metal, chemical, and manufactured products. Many other minerals contain chromium, but none of them are found in deposits that can be economically mined to produce chromium.

Physical Properties of Chromite
Chemical Classification Oxide
Color Dark gray to black, rarely brownish black
Streak Dark brown
Luster Metallic to submetallic
Diaphaneity Opaque
Cleavage None
Mohs Hardness 5.5 to 6
Specific Gravity 4.0 to 5.1 (variable)
Diagnostic Properties Luster, streak
Chemical Composition FeCr2O4 with magnesium substituting for iron in significant amounts
Crystal System Isometric
Uses An ore of chromium

Properties of Chromite
Chromite can be challenging to identify. Several properties must be considered to differentiate it from other metallic ores. Hand specimen identification of chromite requires consideration of color, specific gravity, luster, and a characteristic brown streak. The most important clue to identifying chromite is its association with ultrabasic igneous rocks and metamorphic rocks such as serpentinite.

Chromite is sometimes slightly magnetic. This can cause it to be confused with magnetite. Chromite and ilmenite have very similar properties. Careful observations of hardness, streak, and specific gravity are required to distinguish these minerals in hand specimens.

Chromite and Solid Solution
ruby red from chromium
Did You Know? The color of many gemstones is derived from trace amounts of chromium. The red color of rubies, the pink of some sapphires, and the green color of emeralds are derived from chromium. Image copyright iStockphoto / ProArtWork.
Magnesium frequently substitutes for iron in chromite. A solid solution series exists between the mineral chromite (FeCr2O4) and the isomorphous mineral magnesiochromite (MgCr2O4). Intermediate specimens can be rich in iron ((Fe, Mg)Cr2O4) or magnesium ((Mg, Fe)Cr2O4). For convenience in communication, these minerals are often referred to collectively as “chromite.”

Some mineralogists give a generalized chemical composition of (Mg, Fe)(Cr, Al)2O4 for chromite. This composition recognizes multiple solid solution paths between chromite and hercynite (FeAl2O4), spinel (MgAl2O4), magnesiochromite (MgCr2O4), magnetite (Fe3O4), and magnesioferrite (MgFe2O4).

Because of the many different compositions in these solid solution series, geologists and metallurgists often consider “chromite” to be any member of the solid solution series that has significant Cr2O3 content.

Bushveld stratiform chromite deposit
Bushveld stratiform chromite deposit: A field photo of the Bushveld LG6 chromite seam. This clearly shows the stratiform nature of the deposit. USGS photo by Klaus Schulz.

Stratiform, Podiform, and Beach Sands
Small amounts of chromite are found in many types of rock. However, chromite deposits that are large enough for mining are generally found in: 1) stratiform deposits (large masses of igneous rock such as norite or peridotite that slowly crystallized from subsurface magma); 2) podiform deposits (serpentines and other metamorphic rocks derived from the alteration of norite and peridotite); and, 3) beach sands (derived from the weathering of chromite-bearing rocks).

Chromite
Chromite from South Africa: Chromite from the Transvaal area of South Africa. This specimen is approximately 3.5 inches (9 centimeters) across.

STRATIFORM DEPOSITS

Stratiform deposits are large masses of igneous rock that cooled very slowly in subsurface magma chambers. During this slow cooling, chromite and associated minerals crystallized early while the magma was still at a very high temperature. Their crystals then settled to the bottom of the magma chamber to form a layered deposit. Some of the layers in these deposits can contain 50% or more chromite on the basis of weight.

Most of the world’s known chromite occurs in two stratiform deposits: the Bushveld Complex in South Africa and the Great Dyke in Zimbabwe. Other important stratiform deposits include the Stillwater Complex in Montana, the Kemi Complex of Finland, the Orissa Complex of India, the Goias in Brazil, the Mashaba Complex of Zimbabwe and small deposits in Madagascar. Nearly all of these are Precambrian in age.

Chromite
Chromite from Zimbabwe: Chromite from Shurugwi, Zimbabwe. The specimen is approximately 4 inches (10 centimeters) across.

PODIFORM DEPOSITS

Podiform deposits are large slabs of oceanic lithosphere that have been thrust up onto a continental plate. These slabs of rock, also known as “ophiolites,” can contain significant amounts of chromite. In these deposits, the chromite is disseminated through the rock and not highly concentrated in easy-to-mine layers. Podiform deposits are known in Kazakhstan, Russia, the Philippines, Zimbabwe, Cyprus, and Greece.

The first discoveries of podiform chromite deposits were made near Baltimore, Maryland in the early 1800s. These deposits supplied nearly all of the world’s chromite until about 1850. These deposits were small and are no longer in production.

Mineral collection
The best way to learn about minerals is to study with a collection of small specimens that you can handle, examine, and observe their properties. Inexpensive mineral collections are available in the Geology.com Store.

BEACH SANDS

Chromite is found in beach sands derived from the weathering of chromite-bearing rocks and laterite soils that developed over peridotite. Beach sand rich in chromite and other heavy minerals is sometimes mined, processed to remove heavy minerals, and returned to the environment.

Two facts allow these chromite sands to occasionally contain economic deposits of chromite. First, chromite is one of the more weathering-resistant minerals of peridotite. That causes it to be concentrated in residual soils that form in the weathering zone above chromite-rich rocks. Second, chromite has higher specific gravity than other minerals in peridotite. This causes it to be selectively transported and deposited by a wave and current actions, concentrating it in certain locations at streams and beaches. These deposits are sometimes rich enough and large enough that they can be mined for chromite.

Uses of Chromite and Chromium
chrome yellow paint
Did You Know? School buses and yellow lines on highways are often painted with “chrome yellow” paint. The “chrome” means chromium was used as an ingredient. Image copyright iStockphoto / 2windspa.
Chromium is a metal used to induce hardness, toughness, and chemical resistance in steel. The alloy produced is known as “stainless steel.” When alloyed with iron and nickel, it produces an alloy known as “nichrome” which is resistant to high temperatures and used to make heating units, ovens, and other appliances. Thin coatings of chromium alloys are used as platings on auto parts, appliances, and other products. These are given the name “chrome plated.” It is also used to make superalloys that can perform well in the hot, corrosive, and high-stress environment of jet engines.

Chromium’s name comes from the Greek word “chroma” which means “color.” Chromium is used as a pigment in paint. The familiar yellow lines painted down the center of highways and the yellow paint used on school buses are often “chrome yellow” – a color produced from chromium pigment. Chromium is an important pigment in many types of paint, ink, dye, and cosmetics. Trace amounts of chromium produce the color in many minerals and gemstones. The red color of ruby, the pink of some sapphires, and the green color of emerald are caused by tiny amounts of chromium.

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