An archaeometallurgical characterization of two iron smelting tap slags recovered from the early medieval site of Ponte di Val Gabbia I (Brescia, northern Italy) was performed. The main goal was to infer from the slags the working conditions of the ancient bloomery furnace in terms of tem-perature and oxygen chemical potential. The petrology of both slags was investigated by light optical microscopy and scanning electron microscopy, while their chemical compositions were measured via scanning electron microscopy coupled with X-ray dispersive spectroscopy. High-resolution Raman micro-spectrometry was used to confirm the identification of the miner-alogical phases. The software Rhyolite-MELTS was used to compute the liquidus temperatures of the two slags, which resulted 1120 °C and 1146 °C. These temperatures approximate the working temperature of the bloomery furnace. A thermodynamic-based approach was adopted to estimate the redox conditions of the reducing atmosphere of the smelting furnace revealing that the two slags formed in different redox environments. Specifically, the resulting oxygen chemical poten-tials were –382.61 kJ/mol and –243.80 kJ/mol at the liquidus temperatures of 1120 °C and 1146 °C, respectively.
Archaeometallurgical Characterization of Two Lombard Early Medieval Bloomery Slags from Ponte di Val Gabbia I Site (Northern Italy)
Merico, Paolomarco;Faccoli, Michela
;La Corte, Daniele;Cornacchia, Giovanna
2023-01-01
Abstract
An archaeometallurgical characterization of two iron smelting tap slags recovered from the early medieval site of Ponte di Val Gabbia I (Brescia, northern Italy) was performed. The main goal was to infer from the slags the working conditions of the ancient bloomery furnace in terms of tem-perature and oxygen chemical potential. The petrology of both slags was investigated by light optical microscopy and scanning electron microscopy, while their chemical compositions were measured via scanning electron microscopy coupled with X-ray dispersive spectroscopy. High-resolution Raman micro-spectrometry was used to confirm the identification of the miner-alogical phases. The software Rhyolite-MELTS was used to compute the liquidus temperatures of the two slags, which resulted 1120 °C and 1146 °C. These temperatures approximate the working temperature of the bloomery furnace. A thermodynamic-based approach was adopted to estimate the redox conditions of the reducing atmosphere of the smelting furnace revealing that the two slags formed in different redox environments. Specifically, the resulting oxygen chemical poten-tials were –382.61 kJ/mol and –243.80 kJ/mol at the liquidus temperatures of 1120 °C and 1146 °C, respectively.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.