Oleh Yatsuk, Leonie Koch, Lorena Carla Giannossa, Annarosa Mangone, Giacomo Fiocco, Marco Malagodi, Astrik Gorghinian, Marco Ferretti, Patrizia Davit, Alessandro Re, Alessandro Lo Giudice, Cristiano Iaia, Monica Gulmini
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引用次数: 0
摘要
铁器时代是一个变革时期,玻璃制造技术出现了许多创新。本研究中考虑的一组物品的化学成分显示了公元前八至六世纪所用原材料的多样性以及对玻璃外观处理的深入了解。这项研究在博物馆内使用光纤反射光谱仪和便携式 X 射线荧光光谱仪对大量玻璃珠进行了检测,并根据其成分和光谱特征对其进行了初步分组。此外,还用激光烧蚀电感耦合等离子体质谱仪分析了一组较小的选定样本,以提供材料的全面化学特征。成分数据表明,这些样品属于高镁和低镁玻璃成分类型。只有一个样品被认定为低镁中钾玻璃。每组中的玻璃都由不同的沙土制成,这表明它们的产地不同。其中一些样本被认为是当地出产的,而其他样本则被解释为进口玻璃。此外,还讨论了玻璃着色、脱色和回收利用的证据。
It is not crystal clear: “nuances” in the selection of raw materials for Iron Age translucent glass revealed by chemical analyses of beads from central Italy
The Iron Age was a period of change, with many innovations in the glass-making technology. The chemical composition of the set of objects considered in the present study demonstrates the diversity of the raw materials used and the depth of knowledge about the manipulation of glass appearance in the eighth-sixth centuries BCE. The study was carried out using fibre optics reflection spectroscopy and portable X-ray fluorescence spectrometry at the museums’ premises to examine a large number of glass beads and preliminarily group them on the basis of their composition and spectral characteristics. In addition, a smaller set of selected samples was analysed by laser ablation inductively coupled plasma mass spectrometry to provide a comprehensive chemical characterisation of the material. The compositional data indicated that the samples belonged to the high magnesium and low magnesium glass compositional types. Only one sample was recognised as low magnesium medium potassium glass. Glasses within each group were made from different sands, suggesting different provenances. Some of the samples were suggested to be of local origin, while the others were interpreted as imported glass. Evidence of glass colouring, decolouring and recycling are also discussed.
期刊介绍:
Archaeological and Anthropological Sciences covers the full spectrum of natural scientific methods with an emphasis on the archaeological contexts and the questions being studied. It bridges the gap between archaeologists and natural scientists providing a forum to encourage the continued integration of scientific methodologies in archaeological research.
Coverage in the journal includes: archaeology, geology/geophysical prospection, geoarchaeology, geochronology, palaeoanthropology, archaeozoology and archaeobotany, genetics and other biomolecules, material analysis and conservation science.
The journal is endorsed by the German Society of Natural Scientific Archaeology and Archaeometry (GNAA), the Hellenic Society for Archaeometry (HSC), the Association of Italian Archaeometrists (AIAr) and the Society of Archaeological Sciences (SAS).