Analytical and technological evaluation of ancient lead slags from Lavrion, Attika, Greece
Part of : Mediterranean archaeology & archaeometry : international journal ; Vol.15, No.2, 2015, pages 113-127
Issue:
Pages:
113-127
Abstract:
The present research reports the chemical and mineralogical results of various archaeometallurgical lead slags from the Ari site at Lavrion, one of the largest ancient sites of Pb–Ag metallurgical activities in Greece, excavated by the School of Mining and Metallurgical Engineering of Greece, under the directorship of Prof. C. Tsaimou. Dating of the metallurgical slags was carried out using radiocarbon measurements, indicating the earliest phase of the Roman Empire. Chemical analysis, X-ray diffraction (XRD), Fourier transform infrared spectroscopy (FT-IR) and scanning electron microscopy (SEM) were used to identify the Ca-rich silicate, oxides and metallic phases. The major constituents of the slag proved to be melilite (akermanite/hardystonite), clinopyroxene, olivine, spinel and glass. Zinc was dissolved in the silicate melt and was mostly present in the form of the zinc member of the spinel and as silicate (hardystonite). Lead, in contrast, behaves as an “incompatible element” and was likely to be concentrated in the residual matrix. Pb was also present in the form of metallic inclusions.
Subject (LC):
Keywords:
ancient Pb slags, radiocabon dating, mineralogy, microstructure
Notes:
Corresponding author: P.E. Tsakiridis (ptsakiri@central.ntua.gr)
References (1):
- Bachmann, H.G., (1982) Archaeometallurgical investigations of ancient silver smelting atLaurion, Erzmetall: Journal for Exploration, Mining and Metallurgy, Volume 35,Issue 5, (1982), pp. 246-251.Conophagos, C., (1980) The ancient Lavrion and the Greek technique of the silver production,Edition of Greek Company of Editions, Athens (1980), 458 p. (In Greek).Craddock, P.T., (1995) Early metal mining and production, Smithsonian Institution Press,New York (1995), 363 p.De Caro, T. Riccucci, C., Parisi, E.I., Faraldi, F., Caschera, D., (2015) Ancient silver extractionin the Montevecchio mine basin (Sardinia, Italy): Micro-chemical study ofpyrometallurgical materials, Applied Physics A: Materials Science and Processing,Volume 113, Issue 4 (2013), Pages 945-957Deer, W.A., Howie, R.A., Zussman, J., (1992) An Introduction to the Rock-Forming Minerals,2nd ed. Longman Group UK Limited, Essex, England (1992), p. 696.Devic, S., Marceta, L., (2007) Differences in Morphological Properties between the olivinegroup minerals formed in naturaland industrial process, Journal of Mining andMetallurgy, 43 B (2007), pp: 99 – 105.Ericsson, T., Filippidis, A., (1986) Cation ordering in the limited solid solution Fe2SiO4–Zn2SiO4, Am. Mineral. 71 (1986), pp: 1502–1509.Ettler, V., Johan, Z., Touray, J.C., Jelínek E., (2000) Zinc partitioning between glass andsilicate phases in historical and modern lead–zinc metallurgical slags from thePíbram district, Czech Republic, Comptes Rendus de l‟Académie des Sciences -Series IIA - Earth and Planetary Science, Volume 331, Issue 4 (2000), pp: 245-250.Ettler, V., Legendre, O., Bode nan, F., Touray, J.C., (2001) Primary phases and naturalweathering of old lead-zinc pyrometallurgical slag from Pribram, Czech Republic,Canadian Mineralogist, Volume 39, Issue 3 (2002), pp. 873-888.Ettler, V., Cervinka, R., Johan, Z., (2009) Mineralogy of medieval slags from lead and silversmelting (Bohutin, Pribram district, Czech Republic): Towards estimation ofhistorical smelting conditions, Archaeometry, Volume 51, Issue 6 (2009), pp. 987-1007Farquhar, R.M., Walthall, J.A., Hancock, R.G.V., (1995) 18th century lead smelting in centralnorth America: Evidence from lead isotope and INAA measurements, Journalof Archaeological Science, Volume 22, Issue 5 (1995), pp: 639-648.Ferrer-Eres M.A., Peris-Vicente J., Valle-Algarra F.M., Gimeno-Adelantado J.V., Sánchez-Ramos S., Soriano-Piñol M.D., (2010) Archaeopolymetallurgical study of materialsfrom an Iberian culture site in Spain by scanning electron microscopy with Xraymicroanalysis, chemometrics and image analysis, Microchemical, Volume 95,Issue 2 (2010), pp. 298-305Kakavoyannis, E., (2001) The Silver Ore-Processing Workshops of the Lavrion Region,The Annual of the British School at Athens, Volume 96 (2001), pp. 365-380.Kucha, H., Martens, A., Ottenburgs, R., De Vos, W., Viaene, W., (1996) Primary mineralsof Zn–Pb mining and metallurgical dumps and their environmental behavior atPlombieres- Belgium, Envir. Geol. 27 (1996), pp:1–15.Kuleff, I., Iliev, I., Pernicka, E., Gergova, D., (2006) Chemical and lead isotope compositionsof lead artefacts from ancient Thracia (Bulgaria), Journal of Cultural Heritage,Volume 7, Issue 4 (2006), pp. 244-256.Manasse, A., Mellini, M., (2002) Chemical and textural characterisation of medieval slagsfrom the Massa Marittima smelting sites (Tuscany, Italy), Journal of CulturalHeritage, Volume 3, Issue 3 (2002), pp: 187-198.Navarro, A., Cardellach, E., Mendoza, J.L., Corbella, M., Domènech, L.M., (2008) Metalmobilization from base-metal smelting slag dumps in Sierra Almagrera (Almería,Spain), Applied Geochemistry, Volume 23, Issue 4 (2008), pp: 895-913.Nriagu, J.O., (1983) Lead and Lead Poisoning in Antiquity, New York (1983), John Wileyand Sons, 437p.Papadimitriou, G., (2000) Mining and Metallurgical Activities in Ancient Laurium and itsimpact on the Golden Era of Athens, Invited Lecture, 5th International MiningHistory Congress, Milos Island (2000), pp: 33-44.Rawlings, R.D., Wu, J.P., Boccaccini, A.R., (2006). Glass-ceramics: Their production fromwastes-A Review, Journal of Materials Science, Volume 41, Issue 3 (2006) pp.733-761.Reimer, P.J., Baillie, M.G.L., Bard, E., Bayliss, A., Beck, J.W., Bertrand, C.J.H., Blackwell,P.G., Buck, C.E., Burr, G.S., Cutler, K.B., Damon, P.E., Edwards, R.L., Fairbanks,R.G., Friedrich, M., Guilderson, T.P., Hogg, A.G., Hughen, K.A., Kromer, B.,McCormac, G., Manning, S., Ramsey, C.B., Reimer, R.W., Remmele, S., Southon,J.R., Stuiver, M., Talamo, S., Taylor, F.W., van der Plicht, J., Weyhenmeyer, C.E.,(2004) IntCal04 Terrestrial radiocarbon age calibration, 0-26 ka BP, Radiocarbon,Volume 46, Issue 3 (2004), pp.1029–1058.Saffarzadeh, A., Shimaoka, T., Motomura, Y., Watanabe, K., (2006) Chemical and mineralogicalevaluation of slag products derived from the pyrolysis/melting treatmentof MSW, Waste Management, Volume 26, Issue 12 (2006), pp: 1443-1452.Stos-Gale, Z.A., Gale, N.H., Gilmore, G.R., (1984) Early Bronze Age Trojan metal sourcesand Anatolians in the Cyclades, Oxford Journal of Archaeology, Volume 3, Issues3 (1984), pp. 23-43.Tsaimou, C.G., (2005) The cyclic plane sluices for the ore mineral processing in Ari site ofLavreotiki, Mineral Wealth, Volume 137 (2005), pp. 19-28 (in Greek).Tylecote, R.F., (1976) A History of Metallurgy, 2nd ed. (Institute of Materials/ Bath Press,Avon, 1976)