Reconstruction of the Casting Technology in the Bronze Age on the Basis of Investigations and Visualisation of Casting Moulds

Journal title

Archives of Foundry Engineering




vol. 17


No 3



Application of information technology to the foundry industry ; Archaeometallurgy ; Casting moulds ; Tin bronze ; XRF

Divisions of PAS

Nauki Techniczne


The Katowice Branch of the Polish Academy of Sciences




Artykuły / Articles


ISSN 2299-2944


Boroffka (2009), Simple Technology : Casting Moulds for Axe - adzes In Metals and Societies Studies in honour of Ottaway Dr Rudolf Bonn, null, 246. ; Nowak (2016), Metallurgists from Bronze Age Cemetery buried in Legnica at Spokojna St in Polish, null, 1. ; Cowie (2009), Some Early Bronze Age stone moulds from Scotland In Metals and Societies Studies in honour of Dr Rudolf Bonn, null, 313. ; Rezi (2013), Nessel The Absence of Smiths and Founders Why Tools Are Rare in Bronze Age Burials In Bronze Age Crafts and Craftsmen in the Carpathian Basin, null, 11, 139. ; Garbacz (2016), Archaeometallurgical investigations of the Early Iron Age casting workshop at Kamieniec a preliminary study of Foundry, Archives Engineering, 14, 29, ; Garbacz (2017), The Analysis of Foundry Engineering of Copper Alloys Based on the Research of a Metallurgist Settlement in Szczepidło of Foundry, Archives Engineering, 15, 45, ; Rzadkosz (2014), Structure and Properties Research of Casts Made with Copper Alloys of and, Matrix Archives Metallurgy Materials, 17, 59, ; Kearns (2010), Metal to mould : alloy identification inexperimental casting moulds using XRF Historical Metallurgy, null, 23, 48. ; Schmalfuß (2008), Das Gräberfeld Delitzsch in Sachsen Ein jüngstbronzezeitliches Gräberfeld der Lausitzer Kultur die Ergebnisse der Grabungen von In Leipziger online - Beiträge zur Ur - und Frühgeschichtlichen Archäologie Leipzig, null, 12. ; Bos (1998), iteration schemes and convergence criteria for concentration calculations in ray fluorescence spectrometry with the use of fundamental parameter methods, Constraints Analytica Chimica Acta, 22, 373. ; Dungworth (2000), note on the analysis of crucibles and moulds Historical Metallurgy, null, 24, 83. ; Garbacz (null), Ceramic moulds for precision casting in the bronze age and computer reconstruction of the casts of Foundry spec, Archives Engineering, 15, 2015. ; Kuijpers (2008), Bronze in the Leiden, Age, 800. ; Ottaway (2001), Innovation production and specialization in early prehistoric copper metallurgy of, European Journal Archaeology, 4, 87. ; Ciliberto (2000), analytical methods in art, Modern archaeology Toronto. ; Davey (2009), The early history of lost wax casting In Metallurgy Civilisation Beyond Archetype London, null, 13, 147. ; Robbiola (1998), Morphology and mechanisms of formation of natural patinas on archaeological Cu alloys, Corrosion Science, 20, 12. ; Beldjoudi (2001), Surface modification processes on European Union bronze reference materials for analytical studies of cultural artefacts Surface, Engineering, 19, 231. ; Harding (2000), societies in the Bronze University, European Age, 21. ; Rzadkosz (2013), Casting of copper and its alloys in Polish, null, 16. ; Davis (2001), Specialty Handbook Copper Copper Alloys International Materials OH, null, 18. ; Garbacz (2009), Modelling in Visualisation and Reconstruction of Archeological of and, Computer Archives Metallurgy Materials, 339.