NATURAL pigment lapis lazuli
Lapis lazuli pigment can be mixed with oils and other substances that can be used by artists for restorations and paintings.
Lapis lazuli pigment can be used on walls of different materials. Because of its resistance to fungus, micro-organisms, water and chemicals, it is excellent for yachts and swimming pools.
Lapis lazuli pigment can be mixed with several types of resin and plastics achieving the desired shape by means of different moulding methods.
The Lapis lazuli crystals can only be detected via microscope which means that it cannot be reproduced artificially and therefore it is very useful for printing security documents, bank notes and valuable documents
Chemical aspects of the pigment
Natural ultramarine is one of the most complex mineral pigments. It is a complex sulfur containing sodium silicate, basically a mineralized limestone containing the blue cubic mineral called lazurite (Miller & Alquist, 1998).
The following are the chemical properties of natural ultramarine (Miller & Alquist, 1998):
unaffected by heating up to redness
unaffected by ammonia or caustic alkalis
unaffected by sodium hydroxide
unreacive with base chemicals
extremely susceptible to even the most minute and diluted mineral acids and acid vapors; because of this susceptibility natural ultramarine pigment was never used in frescoes
the pigment is almost entirely permanent and highly stable in light
Now, artists do not have to compromise the exquisite vibrancy of genuine Lapis Lazuli pigment. Its synthetic counterpart is nLapis Lazuli Pigmentot as vivid blue or as permanent as the natural version. The particles within synthetic ultramarine are much smaller and uniform than natural ultramarine thus diffusing the light more evenly. The natural Lapis Lazuli pigment, with large and irregular particles of angular shape, react to light like a prism, producing its characteristic three-dimensional, gemlike effect.
Natural Lapis Lazuli Pigment is suitable for use in paints, lacquers, inks and cosmetics. It is successfully being used in t he coating of metallic and other surfaces.
We offer three different quality Lapis Lazuli pigments. Each is sold by the Kilogram (2.2 Pounds).
BEST QUALITY, MEDIUM QUALITY, LOW QUALITY
We also offer the option to buy a 100 grs sampler bottle for each one of our
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The vivid blue pigment that is extracted from the stone lapis lazuli was first introduced to Europe from Afghanistan as Ultramarinum, meaning beyond the sea. The lapis stone was ground into a fine powder creating the secret to ultramarine blue.
The first noted use of the stone as a pigment can be seen in sixth and seventh century AD cave paintings in Afghanistan temples where the stone was most predominantly mined. Lapis Lazuli ultramarine pigment has also been found in some Chinese paintings dating from the tenth and eleventh centuries AD and in a few Indian murals dating from the eleventh, twelfth and seventeenth centuries AD. Italian painters of the fourteenth through the fifteenth centuries AD used the brilliant ultramarine color to complement their vermilion and gold illuminated manuscripts and panel paintings.
Painters of the Renaissance had a strong affinity for the ultramarine pigment due to its vivid rich consistency. Because of the costly manner by which the pigment is extracted from the stone lapis lazuli, natural ultramarine blue has been one of the most costly and precious of the artist materials equaling and sometimes exceeding the price of gold. Artists used the pigment quite sparingly reserving its use for the robes of the Virgin Mary and Christ child.
Extraction of the Pigment
Natural ultramarine pigment is extremely difficult to buy at the present and is only available occasionally, the price often exceeding its weight in gold. Most painters wishing to obtain the pigment must purchase the stone from a gem dealer and extract the pigment themselves.
Natural ultramarine blue made from lapis lazuli is one of the most difficult pigments to extract through grinding by hand. Only the highest quality of lapis having a higher percentage of lazurite with only small amounts of impurities is sufficient for pulling a rich blue. The normal grinding and washing technique used to extract other pigments will only produce a pale grayish blue powder. An improved method for extracting the blue pigment was developed in the 13th century. The process consisted of mixing the ground lapis lazuli stone with melted wax, resins, and oils, then wrapping the mixture within cloth and kneading it under a dilute lye solution of potassium carbonate ( Miller & Alquist, 1998).
This process resulted in the blue particles collecting at the bottom of a holding vessel, while most of the impurities as well as the colorless crystals remain within the mass of wax, resin and oil. The process is performed three times, each successive extraction creating a lower quality pigment. The third and final extraction results in a predominantly colorless material having only a few blue particles, creating what is known as ultramarine ash, used as a glaze due to its pale blue transparency.
A much less costly and time consuming alternative to natural ultramarine pigment is synthetic ultramarine blue which is easily obtained at the present. Synthetic ultramarine is produced today by heating clay, soda, sulfur, and coal in furnaces. Unfortunately synthetic ultramarine is not as vivid a blue or as permanent as the natural version. The particles within synthetic ultramarine are much smaller and uniform than natural ultramarine thus diffusing the light more evenly.