Title of article :
Microscopic techniques to study Roman renders and mural paintings from various sites
Author/Authors :
Weber، نويسنده , , Johannes and Prochaska، نويسنده , , Walter and Zimmermann، نويسنده , , Norbert، نويسنده ,
Issue Information :
روزنامه با شماره پیاپی سال 2009
Abstract :
Based on recent research on mural paintings from a number of ancient Roman sites, i.e. Ostia, Ephesos, Carnuntum and Saalfelden, the contribution presents the results obtained by microscopic techniques used to study similar paints from different sites as well as paints of different artistic quality, style and date from one and the same site.
shown that careful microscope investigations are capable of detecting the stratigraphic sequence of plaster layers, the way of preparing and applying the mortars, the raw materials used, and the means to produce the desired surface in terms of colour and texture. The analyses focus on petrographic thin-sections observed in different modes of illumination. Pseudocoloured images produced from characteristic sample micrographs are presented in order to better illustrate the relevant features.
eparatory — arriccio-plaster layers always contain aggregate from local sources, preferentially unwashed river sands with enhanced amounts of silt. For the finish — intonaco-plaster layers, the aggregate was produced by crushing selected stone material of light colour; when available or appropriate, marble was employed, but other stones can be found as well. For high quality paints, a number of intonaco layers were applied always using the same raw materials at reduced grain sizes and eventually admixing pigments. While this was the usual way to produce a smooth surface, a few examples were found which indicate grinding of the hardened intonaco prior to painting.
croscopic aspect of the paint layers clearly point to the application of a lime-pigment colour onto a dry or semi-dry surface, i.e. no true fresco technique was used.
Keywords :
Microscopy , Paint technique , Roman wall painting
Journal title :
Materials Characterization
Journal title :
Materials Characterization