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16.7.1: Tanzanite

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    4128
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    Tanzanite
    Chemical composition Calcium aluminum silicate
    Crystal system Orthorhombic
    Habit Prismatic
    Cleavage Perfect, prismatic
    Fracture Uneven
    Hardness 6.5
    Optic nature Biaxial +
    Refractive index 1.685-1.707
    Birefringence 0.008
    Dispersion Low, 0.012
    Specific gravity 3.35
    Lustre Vitreous
    Pleochroism Strong trichroism (dichroism in heated)

    Tanzanite, a variety of zoisite, was discovered in the Merelani district of Tanzania near Mount Kilimanjaro in 1967. So far, all tanzanite discovery has been limited to a six-kilometer strip in this area, which was divided into four blocks, labeled A, B, C and D. Block C is the only site still commercially producing rough tanzanite at this time.

    Almost all purple and blue varieties of the stone are the result of heat treatment. The stone is a yellowish-brown "bug juice" color when it is mined, but when heated to between 426.7-482.2 degrees Celsius, it becomes that gorgeous violet blue that is used in jewelry. The stone has never been found in another locality, so it is indeed a depleting resource. It is somewhat soft (6-7 on Mohs scale of hardness) and has a direction of cleavage along which it can be easily broken. It is desirable because of its elegant, opulent color.

    Diagnostics

    Tanzanite can be confused with sapphire. Interference figure, refractive index, and specific gravity can easily separate tanzanite from sapphire.

    Color

    Violet blue to blue to bluish purple. The color is due to vanadium.
    Someone once described the color of tanzanite as "Tanzanite looks like sapphire wishes it could look" [Wise, 2003].

    Diaphaneity

    Transparent.

    Magnification

    Tanzanite is a type I stone on the GIA clarity scale and is usually not included.

    Refractometer

    nα = 1.685 - 1.696, nβ = 1.693 -1.702 and nγ = 1.700 -1.707 with a birefringence of 0.008 - 0.013.
    The optic nature is biaxial +.

    Other stones falling in this range are:

    • Diopside (higher birefringence)
    • Sinhalite (higher birefringence)
    • Idocrase (higher refractive index and lower birefringence)

    Specific gravity

    3.25 - 3.60 (mean 3.35).
    Tanzanite will sink slowly in methylene iodide (sg = 3.33).

    Spectroscope

    Figure \(\PageIndex{1}\): Spectrum of blue, transparent tanzanite.

    Untreated tanzanite will show weak bands in the yellow-orange, red, green and blue. Heat treated tanzanite may show even weaker bands or none at all (especially in lighter colors).

    Pleochroism

    Natural tanzanite does occur and it exhibits strong trichroism. The typical colors are violet to purplish red, blue and green (the green portion may also be yellow).
    Most tanzanite on the market is heated brownish zoisite and shows two distinct colors under the dichroscope: violet to purplish red and blue. There will be two shades of blue, so the stone is still considered as trichroic, but the yellow or green is not observed in these heated stones. For that reason, it is often referred to as being dichroic.

    Durability

    Tanzanite is relatively soft on the Moh's scale (6½) so care should be taken not to scratch it. Due to its perfect prismatic cleavage it can easily break when hit with a hard and/or sharp object.

    Phenomena

    Cat's eye stones are known to exist.

    Treatments

    Usually, Tanzanite is heat treated to remove the yellow-green to brown components. Heating is usually conducted at temperatures between 400 and 600 degrees centigrade. As Tanzanite's color largely depends on the ratio of Vanadium and Titanium within its crystal structure, any changes to this delicate balance have a marked effect on its color. Heating results in a valence exchange reaction or redox reaction which causes an increase in the violet and blue colors and renders the Titanium colorless. The image below shows Tanzanite crystals before and after heating.

    Tanzanite-Heating.png

    Figure \(\PageIndex{2}\)

    Tanzanite pictures

    Figure \(\PageIndex{3}\): Rought Tanzanite showing burgundy color, untreated, directly in Mirerani.

    Figure \(\PageIndex{4}\): Tanzanite ore is bluish, graphite-containing, often with quartz, pyrite, garnet

    Synthetics

    None known (although there are rumors of a synthetic tanzanite being created in Russia).

    Imitations

    Most stones that are used to simulate tanzanite can easily be separated by optical properties and/or the use of a Hanneman Tanzanite Filter.

    Table \(\PageIndex{1}\)

    Imitation Key separation
    Synthetic forsterite Double refraction, Tanzanite filter, fluorescence
    U.M.Tanzanic (lead glass) Polariscope, RI ~ 1.6
    Coranite™ (synthetic sapphire) Refractive index, optic figure using polariscope with coniscope
    Tanavyte™ (YAG) Polariscope, RI ~ 1.8
    Tanzation (synthetic spinel/cobalt glass triplets) Polariscope, RI = 1.726
    Cubic zirconia Polariscope, RI = 2.1-2.2, SG = 5.6-5.9

    Sources

    • Gem Identification Made Easy, Third Edition (2003) - Antoinette L . Matlins, Antonio C. Bonanno ISBN 0943763347
    • Gemmology 3rd edition (2005) - Peter Read
    • Gems Their Sources, Descriptions and Identification 4th Edition (1990) - Robert Webster (6th ed.)
    • A Students' Guide to Spectroscopy (2003) - Colin Winter FGA, DGA ISBN 0954485300
    • Gem Reference Guide (1995) - GIA ISBN 0873110196
    • Secrets of the Gem Trade, by Richard W. Wise
    • Insider Gemologist: What Are the Identifying Characteristics of Tanzanite, and How Is It Distinguished from Imitations? (2004) - GIA
    • The Science Behind Tanzanite Heating (2013) - Antony Zagoritis, GG

    This page titled 16.7.1: Tanzanite is shared under a CC BY-NC-SA 2.5 license and was authored, remixed, and/or curated by gemology via source content that was edited to the style and standards of the LibreTexts platform; a detailed edit history is available upon request.

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