2026-04-28T20:53:34Zhttps://uvadoc.uva.es/oai/requestoai:uvadoc.uva.es:10324/752012025-03-03T20:00:59Zcom_10324_1158com_10324_931com_10324_894col_10324_1242
Barroso Solares, Suset
Estalayo, E.
Aramendia, J.
Rodriguez Gutierrez, E
Sanz Mínguez, Carlos
Prieto, A. C.
Madariaga, J. M.
Pinto Sanz, Javier
2025-03-03T10:54:42Z
2025-03-03T10:54:42Z
2024
Archaeological and Anthropological Sciences, 2024, vol. 16, n.9
1866-9557
https://uvadoc.uva.es/handle/10324/75201
10.1007/s12520-024-02062-w
9
Archaeological and Anthropological Sciences
16
1866-9565
Pre-Roman glass craftsmanship reached its summit with the development of complex polychrome glass beads, being the
Phoenician glass pendants the most exquisite and elaborate example. The uniqueness and complexity of such findings
could reveal key information for the understanding of the production and trade of glass pieces at that age. However, these
findings have practically never been studied from a physic-chemical perspective. In this work, a remarkable polychrome
glass pendant (2nd -1st c. BC) found at the archaeological site of Pintia (Padilla de Duero, Valladolid, Spain) is studied
by a multi-analytical non-destructive approach, employing X-ray tomography to understand its fabrication procedure,
as well as X-ray fluorescence (XRF) and Raman spectroscopy, both employed in microscopic mode, to determine the
composition of each glass employed in its fabrication. The outstanding preservation state and well-defined archaeological
context of this glass pendant offered a unique opportunity to expand the understanding of pre-Roman glass pieces, while
the combination of the experimental techniques employed provided the first complete and detailed study of a Phoenician
glass pendant. The fabrication procedure of the pendant has been identified step-by-step, showing evidence of the use of
pre-made pieces for the eyes, as well as hints of its fabrication in a secondary workshop. Moreover, the microchemical
analysis of the vividly colored glasses by XRF and Raman spectroscopy revealed a composition compatible with the use
of natron as fluxing agent, typical of Phoenician glass, the presence of surface alterations corresponding to carbonatation
processes, as well as the nature of the employed chromophores or pigments: Mn, Cu, and Co for the blue, Fe-S for the
black, CaSb2O7 and CaSb2O7 + TiO2 for two diverse white glasses, and a pyrochloric triple oxide (Pb2Sb2 − xSnxO7−x/2)
and lead oxides for the yellow. Remarkably, the use of pyrochloric triple oxides as yellow pigments has scarcely been
previously reported at that age. Finally, the identification by Raman spectroscopy of CaSb2O7 and the β-phase of CaSiO3,
as well as the Raman spectra features of the glass matrix corresponding to the blue glass, indicated maximum firing tem-
peratures below 1100 °C.
eng
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© 2024 The Author(s)
Atribución 4.0 Internacional
A multi-technique approach to unveil the composition and fabrication of a pre-Roman glass masterpiece: a double-faced human-head shape polychrome glass pendant (2nd -1st c. BC)
info:eu-repo/semantics/article