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A Third Millennium B.C. Glazed Quartz Bead From Tell Es-Sweyhat, Syria

Published online by Cambridge University Press:  28 February 2011

Pamela B. Vandiver ,
Mark Fenn  and
T.A. Holland
Pamela B. Vandiver
Affiliation:
Conservation Analytical Lab, Smithsonian Institution, Washington, D.C. 20560 USA
Mark Fenn
Affiliation:
Conservation Analytical Lab, Smithsonian Institution, Washington, D.C. 20560 USA
T.A. Holland
Affiliation:
Oriental Institute, University of Chicago, Chicago, IL. USA
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Abstract

The probable composition of a weathered, blue-green glaze on a ground quartz bead was reconstructed. The bead was excavated from Operation 5 at Tell es-Sweyhat, Syria, in 1991 and is dated to the last quarter of the third millennium B.C. Special sample handling was required by the poor state of preservation of the glaze. Microprobe analyses and replicate melts showed that the composition was 60% SiO2, 20% CuO and 20% flux, probably as soda, potassia or a combination. This composition is unusual for ancient glasses and glazes because of its high copper oxide content, which may indicate a link with copper or malachite technology. Very few glass and glaze compositions are known from the third millennium B.C., and none of these has such a high copper concentration, nor are there examples reported from the mid-second millennium B.C. with one exception of glazed tiles from Kerma in Sudan. This rare and unusual composition suggests that there may have been several paths to the development of glasses and glazes. Some of these paths were successful, and some others, as this one, did not continue and were “dead-end” technologies.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 267: Symposium J – Materials Issues in Art and Archaeology III , 1992 , 519
Copyright
Copyright © Materials Research Society 1992

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References

1. Holland, T.A., “Preliminary Report on Excavations at Tell es-Sweyhat, Syria, 1973-4”, Levant 8 (1976) 3670.Google Scholar
2. Holland, T.A., “Preliminary Report on Excavations at Tell es-Sweyhat, Syria, 1975”, Levant 11 (1977) 3665.Google Scholar
3. Weiss, H., “Archaeology in Syria”, American Jour. of Archaeoloav 95 (1991) 683 ff, contains a short note by T.A. Holland and R.L. Zettler, pp. 717-719.Google Scholar
4. Holland, T.A., “Excavations at Tell es-Sweyhat in Syria, 1989 and 1991”, The oriental Institute Notes and News no. 134 (Summer 1992) 16.Google Scholar
5.See contour plan, fig. 1, in Oriental Institute News and Notes, no. 133 (Spring 1992) 1.Google Scholar
6. Levin, E.M., Robbins, C.R., McMurdie, H.F., Phase Diagirams for Ceramists, vol. 1 (1964) no. 164 and vol. 2 (1969) no. 2142–2144, American Ceramic Society, Westerville, OH.Google Scholar
7. Vandiver, P.B., “Appendix A: The Manufacture of Faience”, in Kaczmarczyk, A. and Hedges, R.E.M., Ancient Egyptian Faience, Aris and Phillips, Warminster, England, 1983, pp. A1–A123, and 525 summarized in P.B. Vandiver, “Technological Change in EgyptianFaience”, in J.S. Olin and A.D. Franklin, eds., ArchaeologicalCeramics, C.A.L., Smithsonian Institution Press, Washington,D.C., pp.167-179.Google Scholar
8. Vandiver, P.B., in Early Pyrotechnology, ed. , T.A. and Wertime, S.F., Smithsonian Institution, 7292; and P.B. Vandiver, in Jour. of Glass Studies 26 (1983) 238-248.Google Scholar
9. Vandiver, P.B., Gibson, Mc., and McMahon, A., submitted toScience.Google Scholar
10. Vandiver, P.B., Swann, C.S. and Cranmer, D., “A Review ofMid-Second Millennium B.C. Egyptian Glass Technology at Tellel-Amarna”, Materials Issues in Art and Archaeology II, MRSSymp. Proc. 185 (1991), pp. 609616, and B. McCarthy and P.B. Vandiver, “Ancient High-Strength Ceramics: Fritted Faience Bracelet Manufacture at Harappa (Pakistan), ca. 2300-1800 B.C.,Ibid., pp. 495-510.Google Scholar
11. Tite, M.S., paper presented at the Archaeometry Conference, Los Angeles, CA, April 1992.Google Scholar
12. Moorey, P.R.S., Materials and Manufacture in AncientMesopotamia: The Evidence of Archaeology and Art, BAR Int'l Series 237 (1985) 194222.Google Scholar
13.Analyses of tiles from Kerma, in Vandiver, “Appendix”,op.cit., p. A50, and A. Kaczmarczyk et al., in prep.Google Scholar