2010
DOI: 10.1016/j.jaa.2010.05.001
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Explaining the evolution of ironmaking recipes – An example from northwest Wales

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Cited by 96 publications
(104 citation statements)
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References 37 publications
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“…Crew and Charlton 2007;Charlton et al 2010). Due to the chemical similarities manganese bears with iron, which it neighbours in the periodic (Tylecote 1962: 191;Rostoker and Bronson 1990: 19;Charlton et al 2010). This effect was observed in the manganese-rich slag samples from Mwenge, the olivines of which contained levels of manganese oxide between 15 and 30wt%.…”
Section: Manganese and Iron: Technical Impactsmentioning
confidence: 99%
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“…Crew and Charlton 2007;Charlton et al 2010). Due to the chemical similarities manganese bears with iron, which it neighbours in the periodic (Tylecote 1962: 191;Rostoker and Bronson 1990: 19;Charlton et al 2010). This effect was observed in the manganese-rich slag samples from Mwenge, the olivines of which contained levels of manganese oxide between 15 and 30wt%.…”
Section: Manganese and Iron: Technical Impactsmentioning
confidence: 99%
“…Crew and Charlton 2007;Charlton et al 2010). Due to the chemical similarities manganese bears with iron, which it neighbours in the periodic (Tylecote 1962: 191;Rostoker and Bronson 1990: 19;Charlton et al 2010).…”
Section: Manganese and Iron: Technical Impactsmentioning
confidence: 99%
“…Cyril Stanley Smith observed that as products of high temperature processes, both metallurgical remains, retain partial histories of the processes which they have undergone (Bachmann, 1982). This observation enchanted archaeometallurgists because it allowed them to read not just the technological particularities, such as temperatures operating in the furnaces and smelting recipes (Charlton et al 2010), but also the skills of the smelters and their ability to influence and modify the technical sequences (Morton and Wingrove, 1972;Rehren et al 2007). This information is central to defining a group's technological practice and inter-site or regional comparison of technological practices can shed light on technological cross borrowing, human interaction and group identity (Gordon and Killick, 1993).…”
Section: 2: Materials Culture and Group Identitymentioning
confidence: 99%
“…In the present study, the positive identification of metals worked and their associated techniques was important because, as discussed in Chapter 1, this thesis sought to identify all the metals worked pre-colonially and to expose their technology. Additionally, reconstructing metallurgical techniques would also enhance our knowledge of issues such as technological cross borrowing, metal specialisation, interaction and trade Charlton et al 2010). Over and above the practical metallurgical concerns, such as the types of ores worked, metal production was also affected by cultural choices and the broader socio-political economy (Childs and Killick, 1993;Childs, 2000;de Barros, 2000;Haaland, 2004;Barndon, 2004).…”
Section: 1: Introductionmentioning
confidence: 99%
“…In cases where we know a lot more about these goals and constraints, hypotheses can be more closely framed and at least in principle more readily tested. Recently, Charlton and colleagues [30,31] have taken an evolutionary approach to understanding ironsmelting technology in a case study from northwest Wales. Here, there can be no doubt about the goal (at least in general terms) and the conditions required to successfully smelt iron are well understood, arising as they do from universal properties of the materials involved.…”
Section: The Evolution Of Complex Technologiesmentioning
confidence: 99%