Jurga Bagdzevičienė scite author profile

In the context of archaeometallurgical studies of copper alloys, it is relevant to record the essential changes in the elemental composition of copper alloys that occur during changes in technology and transitions in human history. This article presents the shift in the elemental composition of copper alloy from bronze-based alloys to brass ones during essential changes in archaeological material which happened at the turn of the Earliest Iron Age (500-1 BC) and the Early Roman period, from the 1st century BC to the middle of the 1st century AD. As early as the 2nd and 1st centuries BC, in the Antique world and the Roman Empire and its provinces, brass was already starting to partly replace bronze. Even if the Earliest Iron Age is the least knowable period in Lithuanian prehistory, the few pieces of jewellery attributed to this period show the changes in the composition of the copper alloy. The territorial growth of the Late Antique world and internal contacts within the Barbaricum led to the expanding strength of commodities, including raw materials, technologies, cultural ideas and ideological attitudes. Goods and ideas spread throughout the vast barbarian lands, and eventually reached the forest zone of northeast Europe. Sudden changes during the Early Roman period were first of all connected with the development of settlement structure, and this has therefore made it possible to identify some major places of the production of artefacts and partly changed directions of exchange. All this was accompanied by the emergence of new jewellery types produced by skilled jewellers according to sophisticated techniques. These changes are clearly visible in Early Roman period Lithuanian archaeological material, including the elemental composition of copper alloys. The present article uses X-ray fluorescence (XRF) spectrometry to investigate the composition of copper alloys. Radiography was used to understand the construction of artefacts, and to assess the degree of their inner corrosion and sophisticated manufacturing techniques. Solder samples were taken from the surfaces of several finds, and were analysed by qualitative microchemical analysis.

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Technological investigations of an early 3rd century enamel-decorated drinking horn handle from Maudžiorai cemetery in western Lithuania

Bagdzevičienė

Pudžaitis²,

Bliujienė

et al. 2023

Journal of Archaeological Science: Reports

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Manufacture of the Well-Known Central and Northeastern European Eye Fibulae: Previously Unknown Tricks of the Trade

et al. 2021

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The emergence and widespread distribution of eye fibulae as adornment objects, from the northern provinces of the Roman Empire to northeastern Europe and Scandinavia, as well as their typology have been widely explored. Currently in Lithuania, a total of 209 eye fibulae dating to the 1st and 2nd centuries are known. The geographical distribution, typology and chronology of these Early Roman Period jewelry artifacts do not present any problem. However, the technology of manufacture of these fibulae has been much less studied. The present article analyzes the technology of manufacture of Prussian series eye fibulae, including the previously unknown specific manufacturing techniques, such as the use of wooden axes to modify the construction of the fibula and make it more durable and long lasting. Radiocarbon (14C) dating has unambiguously confirmed that the wooden axes are contemporaneous with the time of the use of the fibulae, while observation under the scanning electron microscope has identified wood species used for making the wooden axes. The X-ray fluorescence spectrometry (XRF) analysis was used to determine the copper alloys, of which eye fibulae were made. The manufacturing technologies of eye fibulae (forging and casting) are discussed in the context of analytical and experimental studies.

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Technological Investigations of an Enamel-Decorated Drinking Horn Handle from Maudžiorai Cemetery in Western Lithuania

Bagdzevičienė¹,

Pudžaitis²,

Bliujienė³

et al. 2022

SSRN Journal

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