Correlative microscopy stands out for its ability to concurrently acquire and analyze various data types in a multimodal and multiscale environment, enabling precise localization of specific areas within samples and enhancing the accuracy and relevance of analyses. This approach showed promise in revealing the metallurgical history of ancient coins. This article focused on composition, microstructure, and manufacturing process of Phoenician-Punic copper-based alloy coins (5th–4th century BCE). The four coins studied by correlative light and electron microscopy, μ-Raman spectroscopy, and X-ray Microscopy exhibited notable differences in elemental composition and microstructures. These variations are attributed to their origin from casting, followed by striking, and subsequent recrystallization due to a more intricate corrosion process.
Correlative analysis of advanced microscopy techniques for metallography and corrosion microstructures of bronze phoenician coins / Bernabale, Martina; Cognigni, Flavio; Contessi, Silvia; Proietti, Anacleto; Mancini, Chiara; Spagnoli, Federica; Rossi, Marco; De Vito, Caterina. - In: MATERIALS CHARACTERIZATION. - ISSN 1044-5803. - 217:(2024). [10.1016/j.matchar.2024.114441]
Correlative analysis of advanced microscopy techniques for metallography and corrosion microstructures of bronze phoenician coins
Bernabale, Martina;Cognigni, Flavio;Proietti, Anacleto;Mancini, Chiara;Spagnoli, Federica;Rossi, Marco;De Vito, Caterina
2024
Abstract
Correlative microscopy stands out for its ability to concurrently acquire and analyze various data types in a multimodal and multiscale environment, enabling precise localization of specific areas within samples and enhancing the accuracy and relevance of analyses. This approach showed promise in revealing the metallurgical history of ancient coins. This article focused on composition, microstructure, and manufacturing process of Phoenician-Punic copper-based alloy coins (5th–4th century BCE). The four coins studied by correlative light and electron microscopy, μ-Raman spectroscopy, and X-ray Microscopy exhibited notable differences in elemental composition and microstructures. These variations are attributed to their origin from casting, followed by striking, and subsequent recrystallization due to a more intricate corrosion process.| File | Dimensione | Formato | |
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