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Reassessing Bronze Age Manufacturing Technologies at Nuzi

Published online by Cambridge University Press:  01 February 2011

Andrew Shortland
Affiliation:
[email protected], Cranfield University, Department of Materials and Applied Sciences, Shrivenham, N/A, United Kingdom
Katherine Eremin
Affiliation:
[email protected], Harvard University Art Museums, Straus Center for Conservation, 32 Quincy Street, Cambridge, MA, 02138, United States
Susanna Kirk
Affiliation:
[email protected], Cranfield University, Department of Materials and Applied Sciences, Shrivenham, N/A, United Kingdom
James Armstrong
Affiliation:
[email protected], Harvard University, Semitic Museum, Cambridge, MA, 02138, United States
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Abstract

The Hurrian city of Nuzi, in modern Iraq, was an important site during the Mesopotamian Bronze Age. Excavations in the late 20s and early 30s yielded a large and important assemblage of glass and other vitreous materials and smaller but significant assemblages of metals and ceramics. Although the vitreous materials have been widely studied in the past, the other assemblages have received little attention. However a recent study of some metal artifacts indicated the presence of brass and dirty copper rather than the expected bronze. This study was, however, limited to a few objects and the proportions of the different alloys was not investigated. Recent analytical studies on the glass beads have highlighted compositional differences between Egyptian and Mesopotamian glass and attempted to link these to the raw materials used. The lack of significant tin or zinc in glasses colored with copper is interesting given the presence of brass and the apparent scarcity of bronze in the copper alloys. The current study involves reassessment of the entire assemblage, concentrating initially on the vitreous materials, glazes and metals. Variations in preservation across the site and within individual buildings are currently being examined. Full characterization of the assemblages will allow relationships between different manufacturing technologies and the raw materials needed to be investigated.

Type
Research Article
Copyright
Copyright © Materials Research Society 2008

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References

1. Starr, R.F.S., Nuzi: report on the excavations at Yorgan Tepa and Kirkuk, Iraq: conducted by Harvard University in conjunction with the American Schools of Oriental Research and the University Museum of Philadelphia, 1927-1931, Volume I Text. (Harvard University Press, Cambridge MA, 1939) p. xxix.Google Scholar
2.Reference 1: p. xxxv.Google Scholar
3.Reference 1: p. xxxiv.Google Scholar
4. Novàk, M., in The synchronisation of civilisations in the Eastern Mediterranean in the second millennium B.C. III. Proceedings of the SCIEM 2000 – 2nd EuroConference Vienna, 28th of May – 1st of June 2003. Contributions to the Chronology of the Eastern Mediterranean, Volume IX, edited by Bietak, M & Czerny, E (Verlag der Österriechshen Akademie der Wissenschaften, Vienna, 2007) pp. 389401.Google Scholar
5. Freu, J., Histoire du Mitanni. (Association KUBABA, Paris, 2003) p.221.Google Scholar
6. Stein, D.L., Zeitschrift für Assyriologie und Vorderasiatische Archäologie 79(1), 3660 (1989).Google Scholar
7.Reference 1: p. 265, 294.Google Scholar
8.Reference 1: p. 94.Google Scholar
9. Vandiver, P., Journal of Glass Studies 25, 239247 (1983).Google Scholar
10.Reference 1: p. 457Google Scholar
11. Barag, D., in: Glass and Glassmaking in Ancient Mesopotamia: An Edition of the Cuneiform Texts which contain Instructions for Glassmakers with a Catalogue of Surviving Objects, edited by, Oppenhein, A.L., Brill, R.H., Barag, D., Saldern, A. von, (New York: Corning Museum of Glass Press, New York, 1970) pp.131197.Google Scholar
12.Reference 1: p. 446Google Scholar
13.Reference 1: p. 458Google Scholar
14.Reference 1: p. 456Google Scholar
15.Reference 1: p. 110Google Scholar
16. Woolley, L., Alalakh: An Account of the Excavations at Tell Atchana in the Hatay, 1937–1949. (The Society of Antiquaries, Oxford, 1955) p. 301.Google Scholar
17. Oates, D., Oates, J. and McDonald, H., Excavations at Tell Brak: Vol I: The Mitanni and Old Bablylonian Periods. (McDonald Institute Monographs, Cambridge; British School of Archaeology in Iraq, London, 1997) p.81.Google Scholar
18.Reference 1: p. 84, p. 100.Google Scholar
19. Postgate, C., Oates, D. and Oates, J., The Excavations at Tell al Rimah: The Pottery (Iraq Archaeological Reports – 4. British School of Archaeology in Iraq, 1997) p.56.Google Scholar
20. Vandiver, P., in Early pyrotechnology: the evolution of the first fire-using industries: papers presented at a seminar on early pyrotechnology held at the Smithsonian Institution, Washington, D.C., and the National Bureau of Standards, Gaithersburg, Maryland, April 19-20, 1979, edited by Wertime, Theodore A., and Wertime, Steven F. (Smithsonian Institution Press, 1982) pp. 7392.Google Scholar
21. Brill, R.H., in Glass and Glass Making in Ancient Mesopotamia, edited by Oppenheim, A.L., Brill, R.H., Barag, D., and Saldern, A. von, (The Corning Museum of Glass, New York, 1970) pp. 105-124.Google Scholar
22. Brill, R.H., Chemical Analyses of Early Glasses, v.1 & v.2. (The Corning Museum of Glass, New York, 1999).Google Scholar
23. Shortland, A., Rogers, N. and Eremin, K, Journal of Archaeological Science, 34, 781789 (2007).Google Scholar
24.A.Shortland, J. and Eremin, K, Archaeometry 48(4) 581603 (2006).Google Scholar
25. Bedore, C. and Dixon, C., Context, 13, 3-4, 1011 (1998).Google Scholar
26. Thornton, C.P., in Metals and Mines: Studies in Archaeometallurgy, edited by, Niece, S. La, Hook, D., and Craddock, P. T. (Archetype Publications, London, 2007) pp. 189201.Google Scholar
27. Kendall, T., Warfare and Military Matters in the Nuzi Tablets, A Dissertation presented to the Faculty of the Graduate School of Arts and Sciences, Brandeis University Department of Mediterranean Studies, 1974.Google Scholar
28.Reference 1: p.472-474.Google Scholar
29.S. Paynter (forthcoming)Google Scholar
30.Reference 1: p.442.Google Scholar
31. Henderson, J., Archaeometry 30, 7791 (1988)Google Scholar
32. Shortland, A.J., Archaeometry 44(4) 517530 (2002).Google Scholar
33. Vandiver, P. and Yener, K. Aslihan ‘Appendix 1. Scientific Analysis of two Akkadian glass beads’ in Nippur V The Early Dynastic to Akkadian Transition The Area WF Sounding at Nippur, A. McMahon with contributions by Gibson, M., Briggs, R.D., Reese, D., Vandiver, P., Yener, K. Aslihan, (The Oriental Institute of the University of Chicago, Chicago, 2007) pp 149157.Google Scholar
34.Reference 24: p. 468Google Scholar
35Reference 24: p. 468–470Google Scholar
36.Reference 1: p. 224.Google Scholar
37.Reference 1: p. 234.Google Scholar
38.Reference 1: p. 280.Google Scholar
39Reference 1: p. 306, p. 312.Google Scholar
40.Reference 1: p. 91–94.Google Scholar
41.Reference 1: p. 307, p. 309.Google Scholar
42. Lilyquist, C., Brill, R.H. and Wypyski, M.T., Studies in early Egyptian glass (Metropolitan Museum of Art, New York, 1993) p. 11.Google Scholar
43.Reference 1: p. 442, p. 446Google Scholar
44. Bunker, B.C., J. Non-Cryst. Solid. 179, 300308 (1994).Google Scholar
45. McLoughlin, S.D., PhD Thesis, Imperial College, London, 2003. p 219 Google Scholar
46. Thornton, C.P., Lamberg-Karlovsky, C. C., Liezers, Martin and , Suzanne Young, M. M., Journal of Archaeological Science, 29, 14511460 (2002).Google Scholar
47. Thornton, C.P. and Ehlers, C., IAMS 23, 38 (2003).Google Scholar
48. Gettens, R.J., Technical studies in the field of the fine arts, 1, 118142 (1933).Google Scholar