Emerald Specialist Mini Course
What Causes Emerald Fractures?
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Are you entranced by emerald greens? If this velvety gem draws your attention, you’ll love this course. Take an in-depth look at emeralds, from how they form to how to appraise them. Looking to buy or sell an emerald? Learn about treatments and evaluating emerald quality. Every emerald connoisseur will learn something new in this course.
Answer: The same things that give emeralds their intense green color can also cause their fractures.
The Chemical Basis for Emerald Fractures
This is the chemical formula for beryl:
Be3Al2Si6O18
Beryl is composed of aluminum (Al), silicon (Si), oxygen (O), and extremely rare beryllium (Be). When the elements chromium (Cr) or vanadium (V) replace aluminum in the beryl formula, you get emeralds.
The presence of these trace elements gives emeralds their characteristic color. However, the valencies of chromium and vanadium don't mesh well with the beryl lattice structure. Chromium and vanadium are heavier atoms than aluminum and strain the crystal structure.
How Emeralds Form Underground
Natural emeralds form underground in intense heat. As the replacement of aluminum takes place, gases escape, creating microscopic voids in the crystals. Other minerals can fill these voids, creating inclusions that also strain the crystal structure and can cause emerald fractures. Sometimes, the gases themselves remain trapped and form bubble or liquid inclusions inside the gemstones.
Emeralds aren't the only members of the beryl family to undergo this process. Red beryl (bixbite) is formed when manganese replaces aluminum.
Roy Slack
International Gem Society
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