Add to ORKGThis paper provides the details of a Roman minting experiment, which used a bronze mould to cast debased silver blanks typical of the third century A.D. The investigation follows the paper ''Experiments reproducing Roman debased alloys" (George, 2020) which studied the manufacturing methods used in the production of Roman silver coinage. The purpose of those experiments was to both recreate the casting process used by ancient moneyers and test the suitability of different mould materials, including clay, limestone and bronze. Although the experimental moulds offered new insights into minting technologies, the initial bronze mould experiments failed to produce blanks with a silver content lower than 70 %. Upon reflection, this was caused by ...
Author Institution: Department of Chemistry, The Ohio State University, Columbus 1
The question studied within the framework of the Wilhelminaoord Workshop was: In which way the mould...
Archaeological moulds are often analysed for metal traces to identify the alloys cast in them. Howev...
This thesis addresses the lack of microstructural data for Roman silver coins which has impeded our ...
Although silver coins have been investigated through the lens of geological provenance to locate arg...
Although silver coins have been investigated through the lens of geological provenance to locate arg...
Although silver coins have been investigated through the lens of geological provenance to locate arg...
In this paper, details are presented for three technical approaches that can be employed in the repr...
Debasement of silver Roman coins is a well-known phenomenon and understanding the quality of ancient...
From co-smelting through cementation to co-melting, there are different ways to make tin bronze. We ...
From co-smelting through cementation to co-melting, there are different ways to make tin bronze. We ...
The fineness of Roman imperial and provincial coinage has been regarded as an indicator of the broad...
In the Civic Museum of Palazzo Schifanoia in Ferrara a collection of 1104 coin striking tools is sto...
Bron...
Abstract. Four ancient Roman silver coins from about 200 BC to 200 AD, mainly contemporary forg-erie...
Author Institution: Department of Chemistry, The Ohio State University, Columbus 1
The question studied within the framework of the Wilhelminaoord Workshop was: In which way the mould...
Archaeological moulds are often analysed for metal traces to identify the alloys cast in them. Howev...
This thesis addresses the lack of microstructural data for Roman silver coins which has impeded our ...
Although silver coins have been investigated through the lens of geological provenance to locate arg...
Although silver coins have been investigated through the lens of geological provenance to locate arg...
Although silver coins have been investigated through the lens of geological provenance to locate arg...
In this paper, details are presented for three technical approaches that can be employed in the repr...
Debasement of silver Roman coins is a well-known phenomenon and understanding the quality of ancient...
From co-smelting through cementation to co-melting, there are different ways to make tin bronze. We ...
From co-smelting through cementation to co-melting, there are different ways to make tin bronze. We ...
The fineness of Roman imperial and provincial coinage has been regarded as an indicator of the broad...
In the Civic Museum of Palazzo Schifanoia in Ferrara a collection of 1104 coin striking tools is sto...
Bron...
Abstract. Four ancient Roman silver coins from about 200 BC to 200 AD, mainly contemporary forg-erie...
Author Institution: Department of Chemistry, The Ohio State University, Columbus 1
The question studied within the framework of the Wilhelminaoord Workshop was: In which way the mould...
Archaeological moulds are often analysed for metal traces to identify the alloys cast in them. Howev...