Labradorite and Kornerupine Physical Properties

Labradorite

Kornerupine

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1 Physical Properties

1.1 Tenacity

Not Available

1.2 Solubility

Not Available

1.3 Durability

Not Available

1.4 Specific Gravity

2.69-2.72

3.25-3.45

1.5 Fracture

Uneven, Conchoidal, Gems, Sixth Edition (2006)

ConchoidalArthur Thomas, Gemstones (2009), ConchoidalArthur Thomas, Gemstones (2009), Brittle, Uneven

1.6 Cleavage

Perfect on {001}, less perfect on {010}, intersecting at near 90°; distinct on {110}

Good on {110}

1.7 Mohs Hardness

6-6.5

6.5

1.8 Chemical Composition

(Na,Ca)_1-2Si_3-2O₈

Mg 3Al 6(Si,Al,B) 5O 21(OH)Walter Schumann , Gemstones of the world (2001) More from other references

Labradorite and Kornerupine Chemical Formula

While comparing Labradorite and Kornerupine physical properties, the important data you should know is its chemical composition. Since chemical formula defines the molecular structure of the crystal, most of the physical properties like color, tenacity, solubility are governed by Labradorite and Kornerupine chemical formula.

Chemical formula of Labradorite- (Na,Ca)_1-2Si_3-2O₈
Chemical formula of Kornerupine- Mg 3Al 6(Si,Al,B) 5O 21(OH)Walter Schumann , Gemstones of the world (2001) More from other references

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Labradorite and Kornerupine Specific Gravity

Another important criteria for qualitative analysis of gemstones is Labradorite and Kornerupine Specific gravity. Specific gravity is the relative density of a gemstone compared with respect to density of water. Gemologists use Labradorite and Kornerupine Optical Properties during the identification of gemstone. Specific gravity of Labradorite is 3.25-3.45 whereas that of Kornerupine is 3.25-3.45.