Siotto E.
Spectroscopy Roman sarcophagi Conservation General Economics Econometrics and Finance Chemistry (miscellaneous) Materials Science (miscellaneous) Gilding techniques Archeology Purplish substance Colloidal gold SEM-EDS Optical petrographic microscopy
Several Roman marble sarcophagi (2nd-4th centuries AD) have been investigated in a first systematic research effort to detect (pigments and) gilding techniques employed in the Imperial Rome. A comparative study was performed on a conspicuous group (no. eighty) of Roman sarcophagi identified in the Vatican Museums, the Capitoline Museums and the National Roman Museum collections. A focused in situ campaign of non-invasive analytical investigations have performed by multispectral imaging, spectroscopic and elemental analysis, followed by aimed micro-invasive techniques. As for the main issue of the gilding and its application techniques, the microscopy still remains one of the most efficient tools for their characterization. Therefore, some micro-samples of three sarcophagi chosen as case studies were examined by means of optical petrographic microscopy (OPM) and scanning electron microscope and energy dispersive X-ray spectrometer (SEM-EDS). The results of archaeological data and scientific analyses show that the leaf gold was applied by two different techniques. In the most attested method, the gold leaf was applied on a ground layer of colour (yellow and/or red ochre, Egyptian blue, etc.); on the other hand, in the other technique, the gold leaf was applied directly onto the marble surface or more probably on top of a thin ground layer of kaolin.
Source: Journal of cultural heritage 38 (2019): 186–194. doi:10.1016/j.culher.2018.11.017
Publisher: Elsevier, Paris , Francia
@article{oai:it.cnr:prodotti:411914, title = {Identification of gilding techniques on Roman marble sarcophagi}, author = {Siotto E.}, publisher = {Elsevier, Paris , Francia}, doi = {10.1016/j.culher.2018.11.017}, journal = {Journal of cultural heritage}, volume = {38}, pages = {186–194}, year = {2019} }