Tuesday, April 9, 2013

Mayan Blue Deciphered




A little bit of good effort here has unraveled the methodology for producing the long lasting Mayan blue color. It is not that demanding and is a strong contender for modern applications. After all the base is clay and the dye binds to the clay and any heat treatment is modest. Thus a surface can be prepared and the surface neatly finished with a blow torch even.



Our present alternatives are usually ceramic based and hardly amenable to shaping and painting. Our paints are thin and inevitably decay soon enough although some excellent alternatives have been mooted about but have not caught fire.



The idea of working up a surface with a clay based plaster that is naturally dyed is something readily accepted and curing it with a blow torch would be well accepted. Particularly as it provides a measure of color control for the artist.





Maya Blue Paint Recipe Deciphered



By Megan Gannon









The ancient Maya used a vivid, remarkably durable blue paint to cover their palace walls, codices, pottery and maybe even the bodies of human sacrifices who were thrown to their deaths down sacred wells. Now a group of chemists claim to have cracked the recipe of Maya Blue.



Scientists have long known the two chief ingredients of the intense blue pigment: indigo, a plant dye that's used today to color denim; and palygorskite, a type of clay. But how the Maya cooked up the unfading paint remained a mystery. Now Spanish researchers report that they found traces of another pigment in Maya Blue, which they say gives clues about how the color was made.



"We detected a second pigment in the samples, dehydroindigo, which must have formed through oxidation of the indigo when it underwent exposure to the heat that is required to prepare MayaBlue," Antonio Doménech, a researcher from the University of Valencia, said in a statement.



"Indigo is blue and dehydroindigo is yellow, therefore the presence of both pigments in variable proportions would justify the more or less greenish tone of Maya Blue," Doménech explained. "It is possible that the Maya knew how to obtain the desired hue by varying the preparation temperature, for example heating the mixture for more or less time or adding more of less wood to the fire."



American researchers in 2008 claimed that copal resin, which was used for incense, may have been the third secret ingredient for Maya Blue. Their research was based on a study of a bowl that had traces of the pigment and was used to burn incense. But Doménech's team didn't buy those findings.



"The bowl contained Maya Blue mixed with copal incense, so the simplified conclusion was that it was only prepared by warming incense," Doménech said in a statement.



The Spanish researchers say they are now investigating the chemical bonds that bind the paint's organic component (indigo) to the inorganic component (clay), which is key to Maya Blue's resilience.

Among the more remarkable discoveries of the paint in context was a 14-foot thick (4 meters) layer of blue mud at the bottom of a naturally formed sinkhole, called the Sacred Cenote, at the famous Pre-Columbian Maya site Chichén Itzá in the Yucatán Peninsula of Mexico. When the Sacred Cenote was first dredged in 1904, it puzzled researchers, but some scientists now believe it was probably left over from blue-coated human sacrifices thrown into the well as part of a Maya ritual.



The research was detailed this year in the journal Microporous and Mesoporous Materials.


2 comments:

Anonymous said...

How did the blue or maya blue get to the cenote? Was the clay dragged from the state of Georgia? Did it travel by waterways or traded with Maya living in Georgia>?

arclein said...

I am not sure that the clay came from Georgia but if it did it would have simply been part of the extensive waterborne trade we are rediscovering.