The Most Perfect Diamonds In The World And Where They Come From
Diamonds are allotropes of carbon , whose hardness and high
dispersion of light make it useful for industrial applications
and jewelry.
Diamond in Greek means "impossible to tame". Diamonds are found
mainly in central and southern Africa ,although significant
sources of the mineral have been discovered in Canada ,Russia
,Brazil ,and Australia.
There are Synthetic Diamonds and Natural Diamonds.
There is something so special about diamonds, and they are so
valuable, that people have been trying to make them for a long
time.
Synthetic diamonds were first produced in 1953, in Stockholm
,Sweden by ASEA ,Sweden's major electrical manufacturing
company. Pressure was maintained within a device at an estimated
83,000 atmospheres for an hour to produce these diamonds.
It now seems that it is possible to make diamonds in a
laboratory so perfect down to the same atomic structure that
DeBeers, the world's largest diamond consortium, is running
scared.
And you know what, these diamonds can be made and sold at a
profit.
Apparently there are in Russia alone 5 laboratories producing
synthetic diamonds that have the same atomic structure as
natural diamonds but with ONE difference, they are too perfect.
They have the same characteristics as real diamonds, the same
hardness, same conductivity, the same sparkle.
Different types of Synthetic Diamonds
2 different processes are being used to produce Synthetic
Diamonds:
The oldest process uses pressure, lots of it, and carbon.
Since diamonds are carbon, eventually people were able to make
diamonds in this manner, but these diamonds were easily
distinguishable from natural diamonds.
Originally, the pressure process was developed by GE and, by
major manufacturers, on a much larger scale.
There is also a cubic press system.
The newest process actually grows diamonds layer by layer as a
chemical process and is called Chemical vapor deposition. This
process allows many new uses for diamonds which in the past had
previously been either too expensive to implement or too
difficult to make.
The most important characteristic of CVD diamond growth is the
ability to control the properties of the diamond produced.
Diamonds are now being used to machine tools, especially for
non-ferrous alloys. CVD diamond also has applications in
electronics. Conductive diamond has been demonstrated as a
useful electrode under many circumstances.
Diamonds are also being used as radiation detection devices.
Diamonds also have uses as semiconductors because the diamonds
can be contaminated with impurities.
Diamond is the ideal material. It can be used in computers to
run them at speeds that would melt anything on the market today.
Diamonds can also replace rubies to make lasers of extreme
power.
Diamonds can be used as memory storage devices which could be
so small as to allow a cellphone to fit into a watch and an iPod
to store 20,000 movies.