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Ultramarine is a blue pigment consisting of sodium aluminosilicate with
three sulphur atoms in a form of sulfide or sulfate
in which unpaired S3- anion
originates the blue color. It is prepared by heating kaolin, sodium carbonate, sulfur and other
inexpensive modifier ingredients. Synthetic ultramarine does not show vivid blue
as much as natural ultramarine due to even particle
size which diffuses light more evenly. Synthetic ultramarine
color is affected by light, oil, or lime. Ultramarine features heat and alkali resistance. It is used as
a colorant and optical whitening agent for plastics, rubber,
inks, paints, cosmetics, detergents, cement, textile and paper.
Members
of pigment blue
|
Pigment
|
C.I.No.
|
CAS
RN
|
| Cascade blue |
Pigment Blue 1 |
1325-87-7 |
| Cascade blue phosphomolybdate |
Pigment Blue 1,
phosphomolybdate |
68083-42-1 |
| |
Pigment Blue 1, Silicomolybdate |
68413-81-0 |
| |
Pigment Blue 1, tungstophosphate |
68647-33-6 |
| |
Pigment Blue 9
|
1325-74-2 |
| |
Pigment Blue 9, tannate |
68477-20-3 |
| C.I. 44040:2 |
Pigment Blue 10
|
1325-93-5 |
| |
Pigment Blue 14
|
1325-88-8 |
| Copper phthalocyanine |
Pigment Blue 15 |
147-14-8 |
| Copper monochlorophthalocyanine |
Pigment Blue 15:1 |
12239-87-1 |
| Phthalocyanine |
Pigment
Blue 16 |
574-93-6 |
|
|
Pigment Blue 17 |
71799-4-7 |
| |
Pigment Blue 19 |
58569-23-6 |
| Alizanthrene Blue |
Pigment Blue 22 |
1324-27-2 |
| Dianisidine blue |
Pigment Blue 26 |
5437-88-7 |
| Ammonium Prussian blue |
Pigment Blue 27
|
12240-15-2 |
| Cobalt blue |
Pigment Blue 28 |
1345-16-0 |
| Lazurite |
Pigment Blue 29
|
1302-83-6 |
| Ultramarine |
Pigment Blue 29 |
57455-37-5 |
| Cosmetic ultramarine blue |
Pigment Blue 29 |
12769-96-9 |
| |
Pigment Blue 3
|
1325-79-7 |
| Cupric sulfide |
Pigment
Blue 34 |
1317-40-4 |
| Cobalt tin oxide |
Pigment Blue 35 |
1345-19-3 |
| Aluminum chromium cobalt oxide |
Pigment Blue 36
|
68187-11-1 |
| Indanthrene Blue |
Pigment Blue 60
|
81-77-6 |
| Reflex Blue R |
Pigment Blue 61
|
1324-76-1 |
| Indigo carmine-aluminum lake |
Pigment Blue 63 |
16521-38-3 |
| 3,3'-Dichloroindanthrene |
Pigment Blue 64 |
130-20-1 |
| Violanthrone |
Pigment Blue 65 |
116-71-2 |
| Indigo |
Pigment Blue 66 |
482-89-3 |
| Zirconium vanadium blue zircon |
Pigment Blue 71
|
68186-95-8 |
| Cobalt zinc aluminate blue spinel |
Pigment Blue 72
|
68186-87-8 |
| Cobalt silicate blue olivine |
Pigment Blue 73
|
68187-40-6 |
| Cobalt Zinc Silicate Blue Phenacite |
Pigment Blue 74
|
68412-74-8 |
Wikipedia
Linking:http://en.wikipedia.org/wiki/Ultramarine
http://www.webexhibits.org/
Brief description of Ultramarine:The finest blue known to the ancients, was obtained from the precious stone
lapis lazuli (lazurite), a costly mineral. The mineral lazurite is a complex
sodium calcium aluminum silicate sulfate. Lapis lazuli has been mined for centuries from a location still in use today
in the mountain valley of Kokcha, Afghanistan. First mined 6,000 years ago, the
rock was transported to Egypt and later to Europe where it was used in jewelry
and paint pigment. Europeans called the expensive powdered pigment ultramarine,
which literally means over the sea. Since the 19th century, ultramarine has been
manufactured artificially
http://www.ut.ee
The natural variety is a very costly blue pigment with
exceptional chemical stability except in the presence of acids. It is two types of ultramarine blue: natural ultramarine and synthetic
ultramarine. Natural Ultramarine is
famous for having been the most expensive pigment. It was more expensive than
gold during the Renaissance. First used in 6th century Afghanistan, the pigment
found its most extensive use in 14th and 15th century illuminated manuscripts
and Italian panel paintings, often reserved for the cloaks of Christ and the
Virgin. Genuine blue pigment is from the semi-precious stone, lapis lazuli,
which is a mixture of the blue mineral, lazurite, with calcspar and iron
pyrites. Natural ultramarine is unaffected by red heat or by alkalis but is
decomposed by dilute acids, even acetic acid, with complete loss of color and
the discharge of hydrogen sulphide gas. The blue is stable, however, in strong
light and many specimens which are several hundred years old show no apparent
change in color. Synthetic ultramarine
is one of the best-documented pigments of the nineteenth century probably
because its invention was requested of chemists and not the result of their
independent research. Ultramarine, genuine made from the semi-precious gem lapis
lazuli was so costly in the nineteenth century that artists infrequently used
it. The hue is a necessary component in a balanced palette of warm and cool
colors; without it a cool, deep blue is lacking. In chemical composition and
structure it is identical with the natural ultramarine. This blue is stable
under all conditions, except in the present of acids. It is permanent to light
and is unaffected by high temperatures. Since it is unaffected by alkalis, it is
stable in fresco. Synthetic ultramarine is today quite widely used as an
artist´s pigment and is known to many as "French ultramarine" because of its
discovery (1830) and long production in France.
http://cabinetmagazine.org/
EARLY 13TH CENTURY:
Ultramarine, which contains more
impurities than blue particles, is still the most difficult artist's pigment to
grind by hand. Some improvements in its production make manufacturing more
efficient—meaning more reliable supplies for artists who are using the color to
portray queens, kings, and religious figures. But this also increases demand for
lapis lazuli gems. As its price surpasses that of gold, ultramarine blue
literally becomes the material wealth it had heretofore signified. Patrons
commonly specify in writing the exact amount of ultramarine blue they will
purchase for the artist to use in commissioned paintings.
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