Listing description
Onyx is a cryptocrystalline
form of quartz.
The colors of its bands range from white to almost every color (save some
shades, such as purple or blue). Commonly, specimens of onyx available contain
bands of colors of white, tan, and brown.
Detailed description
Etymology
Onyx comes through Latin: onyx,
from the Greek ὄνυξ onyx meaning 'claw' or 'fingernail'. With its
fleshtone color, onyx can be said to resemble a fingernail. The English word
'nail' is cognate with the Greek word.
Varieties
Sardonyx is a variant in which the colored
bands are sard (shades of red) rather than black. Pure black
onyx is common, and perhaps the most famous variety, but not as common as onyx
with banded colors.
Imitation
The name has
sometimes been used, incorrectly, to label other banded lapidary materials, such as banded calcite found in Mexico, Pakistan, and other places, and often carved,
polished and sold. This material is much softer than true onyx, and much more
readily available. The majority of carved items sold as 'onyx' today are this carbonate material.[2]
Mineralogy
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Technical details
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Chemical
composition and name
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SiO2
- Silicon
dioxide
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Hardness (Mohs scale)
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7
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2.65 - 2.667
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Refractive
index (R.I.)
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1.543 - 1.552
to 1.545 - 1.554
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0.009
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Optic sign
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Positive
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Optical
character
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Uniaxial
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Historical usage
It has a long
history of use for hardstone carving and jewellery, where it is usually cut as a cabochon, or into beads, and is also used for intaglio or cameo engraved gems, where the bands make the image
contrast with the ground. Some onyx is natural but much is produced by the
staining of agate.
Onyx was known to
the Ancient
Greeks and Romans.[3] Use of sardonyx appears in the art of
Minoan Crete, notably from the archaeological recoveries
at Knossos.[4] Onyx was used in Egypt as early as the Second Dynasty to make bowls
and other pottery items.[5]
Onyx is also
mentioned in the Bible at various points, such as in Genesis 2:12 and the gold
of that land is good: there is bdellium and the onyx stone. and such as the
priests' garments and the foundation of the city of Heaven in Revelation. [6]
Quartz is the second most abundant mineral in the Earth's continental crust, after feldspar. It is made up of a continuous
framework of SiO4 silicon–oxygen tetrahedra, with each oxygen being shared
between two tetrahedra, giving an overall formula SiO2.
There are many
different varieties of quartz, several of which are semi-precious gemstones. Especially in Europe and the Middle
East, varieties of quartz have been since antiquity the most commonly used
minerals in the making of jewelry and hardstone carvings.
The word
"quartz" is derived from the German word "quarz", which was
imported from Middle
High German,
"twarc", which originated in Slavic (cf. Czech tvrdy ("hard"),
Polish twardy ("hard"), Russian твёрдый ("hard")), from Old
Bulgarian (Church Slavonic) тврьдъ ("firm"), Crystal habit
Quartz belongs to
the trigonal crystal system. The ideal crystal shape is a six-sided prism terminating with six-sided pyramids at each end. In nature quartz crystals
are often twinned, distorted, or so intergrown with
adjacent crystals of quartz or other minerals as to only show part of this
shape, or to lack obvious crystal faces altogether and appear massive.
Well-formed crystals typically form in a 'bed' that has unconstrained growth
into a void, but because the crystals must be attached at the other end to a
matrix, only one termination pyramid is present. A quartz geode is such a situation where the void is
approximately spherical in shape, lined with a bed of crystals pointing inward.
At surface
temperatures and pressures, quartz is the most stable form of silicon dioxide.
Quartz will remain stable up to 573 °C at 1 kilobar of pressure. As the pressure
increases the temperature at which quartz will lose stability also increases.
Above
1300 °C and at a pressure of approximately 35 kilobars, only β-quartz is
stable. The latter is not the same as normal quartz (or α-quartz), low quartz
or just quartz. β-quartz has higher symmetry, is less dense and has a slightly
lower specific gravity. The conversion, from one solid substance to another
solid substance, of quartz to β-quartz is quick, reversible and accompanied
with a slight energy absorption. The conversion is so easily accomplished that
when a crystal of quartz is heated to β-quartz, cooled back down, heated again
to β-quartz, etc., the quartz will be the same as when it started.
The reason that
the conversion is so easily accomplished is that the difference between quartz
and β-quartz is relatively slight. The bonds between the oxygen and silicon atoms
are "kinked" or bent in quartz and are not so "kinked" in
β-quartz. At the higher temperatures the atoms move away from each other just
enough to allow the bonds to unkink or straighten and produce the higher
symmetry. As the temperature is lowered, the atoms close in on each other and
the bonds must kink in order to be stable and this lowers the symmetry back
down again.
Although all
quartz at temperatures lower than 573 °C is low quartz, there are a few
examples of crystals that obviously started out as β-quartz. Sometimes these
are labeled as β-quartz but are actually examples of pseudomorphic or
"falsely shaped" crystals more correctly labeled 'quartz after
β-quartz'. These crystals are of higher symmetry than low quartz although low
quartz can form similar crystals to them. They are composed of hexagonal
dipyramids which are a pair of opposing six sided pyramids and the crystals
lack prism faces. Quartz's typical termination is composed of two sets of three
rhombic faces that can look like a six sided pyramid.
(Microscopic) crystal structure
α-quartz
crystallizes in the trigonal crystal system, space group P3121
and P3221 respectively. β-quartz belongs to the hexagonal
system, space group P6221 and P6421,
respectively.[7] These spacegroups are truly chiral (they
each belong to the 11 enantiomorphous pairs). Both α-quartz and β-quartz are
examples of chiral crystal structures composed of achiral building blocks (SiO4
tetrahedra in the present case). The transformation between α- and β-quartz
only involves a comparatively minor rotation of the tetrahedra with respect to
one another, without change in the way they are linked.
Varieties (according to color)
Pure
quartz, traditionally called rock crystal (sometimes called clear
quartz), is colorless and transparent (clear) or translucent,
and has often been used for hardstone
carvings, such as the Lothair
Crystal. Common colored varieties include citrine, rose quartz, amethyst,
smoky quartz, milky quartz, and others. Quartz goes by an array of different
names. The most important distinction between types of quartz is that of macrocrystalline
(individual crystals visible to the unaided eye) and the microcrystalline
or cryptocrystalline varieties (aggregates of crystals
visible only under high magnification). The cryptocrystalline varieties are
either translucent or mostly opaque, while the transparent varieties tend to be
macrocrystalline. Chalcedony
is a cryptocrystalline form of silica consisting of fine intergrowths of both
quartz, and its monoclinic
polymorph moganite.[8]
Other opaque gemstone varieties of quartz, or mixed rocks including quartz,
often including contrasting bands or patterns of color, are agate,
sard,
onyx,
carnelian,
heliotrope, and jasper.Citrine is a variety of quartz whose color ranges from a pale yellow to brown. Natural citrines are rare; most commercial citrines are heat-treated amethysts or smoky quartzes. It is nearly impossible to tell cut citrine from yellow topaz visibly, but they differ in hardness. Citrine has ferric impurities, and is rarely found naturally. Brazil is the leading producer of citrine, with much of its production coming from the state of Rio Grande do Sul. The name is derived from Latin citrina which means "yellow" and is also the origin of the word "citron." Sometimes citrine and amethyst can be found together in the same crystal and is referred to as ametrine.[9]
Citrine is one of three traditional birthstones for the month of November.
Rose quartz is a type of quartz which exhibits a pale pink to rose red hue. The color is usually considered as due to trace amounts of titanium, iron, or manganese, in the massive material. Some rose quartz contains microscopic rutile needles which produces an asterism in transmitted light. Recent X-ray diffraction studies suggest that the color is due to thin microscopic fibers of possibly dumortierite within the massive quartz.[10]
In crystal form (rarely found) it is called pink quartz and its color is thought to be caused by trace amounts of phosphate or aluminium. The color in crystals is apparently photosensitive and subject to fading. The first crystals were found in a pegmatite found near Rumford, Maine, USA, but most crystals on the market come from Minas Gerais, Brazil.
Rose quartz is not popular as a gem – it is generally too clouded by impurities to be suitable for that purpose. Rose quartz is more often carved into figures such as people or hearts. Hearts are commonly found because rose quartz is pink and an affordable mineral.
Varieties (according to microstructure)
Although
many of the varietal names historically arose from the color of the mineral,
current scientific naming schemes refer primarily to the microstructure of the
mineral. Color is a secondary identifier for the cryptocrystalline minerals,
although it is a primary identifier for the macrocrystalline varieties. This
does not always hold true.
PRICE
$11/KG OR $5/IB
For more information:
mobile: +2348039721941
contact person: emeaba uche
e-mail: emeabau@yahoo.com
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