Your search keyword '"red hues"' showing total 2 results

1. The technology of copper-based red glass sectilia from the 2nd century ad lucius verus villa in rome

Author

Marco Verità, Mario Bandiera, Márcia Vilarigues, Patrice Lehuédé, DCR - Departamento de Conservação e Restauro, and VICARTE - Vidro e Cerâmica para as Artes

Subjects

Cuprite, lcsh:QE351-399.2, Materials science, Opacity, XRD, FEG–SEM, Analytical chemistry, chemistry.chemical_element, μRaman spectroscopy, 02 engineering and technology, Electron microprobe, Orange (colour), 01 natural sciences, Roman glass technology, Archaeometry, law.invention, copper-based red glass, Opus sectile, µRaman spectroscopy, Optical microscope, law, red hues, Spectroscopy, Hue, FORS, lcsh:Mineralogy, 010401 analytical chemistry, Geology, opus sectile, 021001 nanoscience & nanotechnology, Red hues, Geotechnical Engineering and Engineering Geology, Copper, 0104 chemical sciences, chemistry, visual_art, visual_art.visual_art_medium, archaeometry, EPMA, Copper-based red glass, 0210 nano-technology

Abstract

This work aimed to investigate the origin of different red hues of Roman copper-based red opaque glass sectilia, to shed light on the production technology behind them. This objective was achieved by the depth study of the samples of glass sectilia, which decorated the villa of co-Emperor Lucius Verus (161&ndash, 169 AD). These were selected for analysis due to their abundance, the certainty of their date and of their different red and orange hues. Using OM (optical microscopy), colourimetry and FORS (fibre optical reflectance spectroscopy) spectroscopy, four red and four orange hues were individuated. A set of representative samples for each hue was analysed by EPMA (electron probe microanalyses) to detect any correlation between colour and chemical composition. Crystalline phases were investigated through high-resolution FEG&ndash, SEM (field emission gun scanning electron microscope), &mu, Raman spectroscopy and XRD, for the identification of colouring and opacifying agents and to understand how the different hues are affected by their shape, concentration and dimension. Sub-micrometric particles of metallic copper and cuprite crystals were identified as both the colouring and opacifying agents. These were not present in the same samples and were manufactured by two distinct colouring techniques, corresponding to two different glass chemical compositions. The size and the number of the colouring particles were the main factors that distinguished one hue from another. Although produced through different colouring techniques, some red samples appeared to be very similar to each other. These data enrich a period of the Roman age through some analyses and allow the identification of the type, as well as some of the production conditions of opaque red glass produced during 2nd century AD, which could be considered to be a period of transition from one technology to another.

Published

2020

2. Nanotechnology in Roman Opaque Red Glass from the 2nd Century AD. Archaeometric Investigation in Red Sectilia from the Decoration of the Lucius Verus Villa in Rome

Author

Mario Bandiera, Patrice Lehuédé, Luís Alves, Isabelle Biron, Marco Verità, Márcia Vilarigues, DCR - Departamento de Conservação e Restauro, and VICARTE - Vidro e Cerâmica para as Artes

Subjects

optical properties, Archeology, Opacity, Materials Science (miscellaneous), media_common.quotation_subject, 02 engineering and technology, Conservation, 01 natural sciences, SEM-EDS, red hues, lcsh:CC1-960, Chemical composition, media_common, FORS, μ-Raman, 010401 analytical chemistry, opaque red, Art, 021001 nanoscience & nanotechnology, Archaeology, 0104 chemical sciences, roman glass, copper, lcsh:Archaeology, nanoparticles, 0210 nano-technology

Abstract

This work aims to characterise the chemical composition of Roman opaque red glass sectilia dated to the 2nd century A.D and to shed light on Roman glassmaking production of different shades of red, from red to reddish-brown. Due to the lack of technical historical sources for this period many questions about technological aspects still remain. In this project a multi-disciplinary approach is in progress to investigate the red glass sectilia with several red hues from the Imperial Villa of Lucius Verus (161&ndash, 169 A.D.) in Rome. First, colorimetric measurements were taken to identify the various red hues. The second step was chemical characterization of the samples and the identification of crystalline colouring phases. Particle Induced X-Ray Emission (PIXE) analysis was used to investigate the chemical composition of these glass samples, while the crystalline phases were identified by Raman Spectroscopy and Scanning Electrons Microscope with Energy Dispersive X-ray Spectrometry (SEM-EDS). Using SEM-EDS nanoparticles were detected as a colouring agent, the chemical composition and the morphology of which has been studied in depth. This information has been compared with the colorimetric analysis to establish any correlation with the different colour hues.