The Diamond

The Diamond

Diamond is the best known gem. It is known as the “king of gems” for its brilliance and for being the hardest mineral on earth. (Foa, p.50) Its characteristics enable it to be used for many different purposes. Since diamonds are the hardest gems on Mohs’ scale, they make useful tools for industrial purposes, such as drilling hard materials. However, they are quite rare, which makes them very valuable. Their beauty and brilliance make them perfect for jewelry.

Diamond is made up of carbon. Another form of pure carbon is graphite. Graphite is the stable form of carbon, found at the earth’s surface. Despite the fact that they have identical chemical composition, the two minerals are drastically different. Diamond is the hardest known substance and is usually light colored and transparent, while graphite is greasy, easily powdered, and very dark in color. Diamond is the hardest gem on Mohs’ hardness scale and graphite is the softest. Diamond is very hard because of its dense packing and interlocking atomic arrangement. Graphite, on the other hand, although it is the same element, is more loosely packed and has a six-sided, layered configuration, which makes it soft (Pough, 1991). The differences between graphite and diamonds are accounted for by the conditions in which they are created.

Diamonds form over long periods of time, between 100 km and 200 km below the surface. At this great depth, carbon gets a chance to cool very gradually, forming diamond crystals. When volcanic eruptions occur, magma carries the diamonds up to the surface of the earth. Kimberlite lavas carrying diamonds erupt at anywhere between 10 and 30 km/hour and increase their velocity to several hundred km/hour within the last few kilometers. (Pough, 44) At the surface, this lava cools and turns into Kimberlite rock. That is why diamonds are often found in kimberlite, a volcanic rock, which is often much younger than the diamonds themselves. All diamonds that are around today are at least 990,000,000 years old. If the same element carbon found its way to the surface, before it got a chance to form crystals and solidify, it would turn into graphite.

Diamond crystals occur in a variety of shapes and forms. There are octahedral, cubic, and dodecahedral diamond crystals. The octahedral crystals are formed with eight sides, the cubic ones have six sides, and the dodecahedra...

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...es where mining takes place, high quality diamonds are not abundant at all. On the average, a diamond mine yields less than one carat of diamond for every five tons of rock. Of this, on average, less than 20% is usable for gems and half of this is lost in cutting. (Arem, p.37)

In order to be used in jewelry, after diamonds are mined, they must be cut. Because diamonds have such a high hardness, they are cut using other diamonds. What allows them to be cut at all is the fact that they do not have uniform harness throughout the entire stone. For example, the point of an octahedron is harder than the surface of an octahedral face. Therefore, when powdered diamond is used to cut a diamond crystal, the powder will always contain some particles that are oriented in a “hard” direction in relation to the crystal being cut. (Arem, p.38).

BIBLIOGRAPHY

Arem, Joel E. All-Color Guide: Gems and Jewelry. 2nd edition. Geoscience Press, Inc.

1992.

Fisher, P. J. The Science of Gems. Charles Scribner’s Sons. New York, 1966.

Foa, Emma. Pockets Gemstones. DK Publishing. New York, 1997.

Pough, Frederick H. Peterson Guide to Rocks and Minerals. Houghton Mifflin Company. Boston, 1991.