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Nondestructive Analysis of Dragonfly Eye Beads from the Warring States Period, Excavated from a Chu Tomb at the Shenmingpu Site, Henan Province, China

Published online by Cambridge University Press:  07 February 2013

Yimin Yang ,
Lihua Wang ,
Shuya Wei ,
Guoding Song ,
Jonathan Mark Kenoyer ,
Tiqiao Xiao ,
Jian Zhu  and
Changsui Wang
Yimin Yang
Affiliation:
Laboratory of Human Evolution, IVPP, Beijing, China Department of Scientific History and Archaeometry, University of Chinese Academy of Sciences, Beijing, China
Lihua Wang
Affiliation:
Shanghai Synchrotron Radiation Facility, Shanghai Institute of Applied Physics, Chinese Academy of Sciences, Shanghai, China
Shuya Wei
Affiliation:
Institute for Natural Sciences and Technologies in Arts, Academy of Fine Arts, Vienna, Austria
Guoding Song
Affiliation:
Laboratory of Human Evolution, IVPP, Beijing, China Department of Scientific History and Archaeometry, University of Chinese Academy of Sciences, Beijing, China
Jonathan Mark Kenoyer
Affiliation:
Department of Anthropology, University of Wisconsin Madison, Madison, WI, USA
Tiqiao Xiao
Affiliation:
Shanghai Synchrotron Radiation Facility, Shanghai Institute of Applied Physics, Chinese Academy of Sciences, Shanghai, China
Jian Zhu
Affiliation:
Laboratory of Human Evolution, IVPP, Beijing, China Department of Scientific History and Archaeometry, University of Chinese Academy of Sciences, Beijing, China
Changsui Wang*
Affiliation:
Laboratory of Human Evolution, IVPP, Beijing, China Department of Scientific History and Archaeometry, University of Chinese Academy of Sciences, Beijing, China
*
*Corresponding author. E-mail: cswang@ucas.ac.cn
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Abstract

Dragonfly eye beads are considered to be the earliest types of glass objects in China, and in the past have been considered as evidence of culture interaction or trade between West and East Asia. In this article, synchrotron radiation microcomputed tomography and μ-probe energy dispersive X-ray fluorescence were used to determine the chemical composition, microstructure, and manufacturing technology of four dragonfly eye beads, excavated from a Chu tomb at the Shenmingpu site, Henan Province, China, dated stylistically to the Middle and Late Warring State Period (475 bc–221 bc). First, a nondestructive method was used to differentiate the material types including faience (glazed quartz), frit, glazed pottery (clay ceramic), and glass. Three beads were identified as faience and one bead as glazed pottery. The glaze recipe includes quartz, saltpeter, plant ash, and various copper, and is classified as belonging to the K2O-CaO-SiO2 glass system, which indicates that these beads were not imported from the West. Based on computed tomography slices, the manufacturing technology of the faience eye beads appears to include the use of an inner core, molding technology, and the direct application glazing method. These manufacturing features are consistent with the techniques used in China during this same time period for bronze mold-casting, proto-porcelain, and glass.

Keywords

dragonfly eye beadsfaienceancient Chinese glassEDXRFSR-μCT
Type
Materials Applications
Information
Microscopy and Microanalysis , Volume 19 , Issue 2 , April 2013 , pp. 335 - 343
Copyright
Copyright © Microscopy Society of America 2013

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References

Baruchel, J., Buffiere, J.-Y., Cloetens, P., Di Michiel, M., Ferrie, E., Ludwig, W., Maire, E. & Salvo, L. (2006). Advances in synchrotron radiation microtomography. Scripta Mater 55, 4146.CrossRefGoogle Scholar
Braghin, C. (2002). Polycrome and monochrome glass of the Warring States and Han periods. In Chinese Glass: Archaeological Studies on the Uses and Social Context of Glass Artefacts from the Warring State to the Northern Song Period: Fifth Century B.C. to Twelfth A.D., Braghin, C. (Ed.), pp. 814. Firenze, Italy: Leo S. Olschki.Google Scholar
Brill, R.H. & Shirahata, H. (2009). The second Kazuo Yamasaki TC-17 lecture on Asian glass: Recent lead isotope analyses of some Asian glasses with remarks on strontium isotope analyses. In Ancient Glass Research along the SILK Road, Gan, F.X., Brill, R.H. & Tian, S.Y. (Eds.), pp. 149164, Singapore: World Scientific Publishing.Google Scholar
Cui, J., Wu, X. & Huang, B. (2011). Chemical and lead isotope analysis of some lead-barium glass wares from the Warring States Period, unearthed from Chu tombs in Changde City, Hunan Province, China. J Archaeol Sci 38(7), 16711679.CrossRefGoogle Scholar
Cui, J., Wu, X., Tan, Y. & Wang, Y. (2009). Chemical analysis of ancient glass wares unearthed from chu cemeteries of the warring state period in the drainage area of the Yuanshui River, Hunan Province. J Chinese Ceram Soc 37(11), 19091913 (in Chinese).Google Scholar
Gan, F., Cheng, H., Hu, Y., Ma, B. & Gu, D. (2009). Study on the most early glass eye-beads in China unearthed from Xu Jialing Tomb in Xichuan of Henan Province. Sci China Ser E 52(4), 922927.CrossRefGoogle Scholar
Gan, F., Cheng, H. & Li, Q. (2006). Origin of Chinese ancient glasses—Study on the earliest Chinese ancient glasses. Sci China Ser E 49(6), 701713.CrossRefGoogle Scholar
Hatton, G.D., Shortland, A.J. & Tite, M.S. (2008). The production technology of Egyptian blue and green frits from second millennium BC Egypt and Mesopotamia. J Archaeol Sci 35(6), 15911604.CrossRefGoogle Scholar
HICRA (2004). The Chu Tomb in Heshangling and Xujialing of Xichuan, pp. 12. Henan Institute of Cultural Relics and Archaeology, Nanyang Institute of Cultural Relics and Archaeology, Xichuan Museum. Zhengzhou, China: Zhengzhou University Press (in Chinese).Google Scholar
Hou, D. (1995). The Production of Ores, Metals, Lacquer and Glass in Ancient Chu Kingdom, pp. 270275. Wuhan, China: Hubei Scientific and Technical Publishers (in Chinese).Google Scholar
Kerr, R. & Wood, N. (2004). Part XII: Ceramic technology. In Science and Civilisation in China: Volume 5, Chemistry and Chemical Technology, Needham, J. (Eds.). Cambridge, UK: Cambridge University Press.Google Scholar
Li, J. (1998). A History of Science and Technology in China (vol. of Ceramic), pp. 9899. Beijing, China: Science Press (in Chinese).Google Scholar
Li, J. (2005). Evolution of ancient Chinese porcelain glaze. In Development of Ancient Chinese Glass, Fuxi, G. (Ed.), pp. 206207. Shanghai, China: Shanghai Scientific and Technologic Press (in Chinese).Google Scholar
Li, Q., Dong, J. & Gan, F. (2009). Research and discussion on chemical composition and technics of the early faience and glass artifacts unearthed from China. J Guangxi University for Nationalities (Natural Science Edition) 15(4), 3141 (in Chinese).Google Scholar
Mees, F., Cornelis, E., Jacobs, P., Doménech Cárbo, M.T. & Roemich, H. (2009). Microfocus X-ray computed tomography analysis of corroded glass objects. Eng Geol 103(3-4), 9399.CrossRefGoogle Scholar
Nicholson, P.T. (1993). Egyptian Faience and Glass, pp. 120. Oxford, UK: Shire.Google Scholar
Qin, Y., She, L., Li, X. & Huang, J. (2009). Composition and structure of warring states period glasses from tomb number two at the Leigudun site of Shuizou county, Hubei province, China. J Chinese Ceram Soc 37(4), 574576 (in Chinese).Google Scholar
Roemich, H., Lopez, E., Mees, F., Jacobs, P., Cornelis, E., Van Dyck, D. & Doménech Cárbo, T. (2005). Microfocus X-ray computed tomography (mCT) for archaeological glasses. In Cultural Heritage Conservation and Environmental Impact Assessment by Non-Destructive Testing and Micro-Analysis, Van Grieken, R. & Janssens, K. (Eds.), pp. 3747. London: Taylor & Francis Group.Google Scholar
Tan, D., Xu, H. & Huang, L. (1999). Research about casting technology using pottery mould in the Bronze Age of China. Acta Archaeol Sinica 2, 211263 (in Chinese).Google Scholar
Tite, M.S., Manti, P. & Shortland, A.J. (2007). A technological study of ancient faience from Egypt. J Archaeol Sci 34(10), 15681583.Google Scholar
Vandiver, P.B. (1998). A review and proposal of new criteria for production technologies of Egyptian faience. In La Couleur dans le Peinture et l'Emaillage de 'Egypte Ancienne, Colinart, S. & Menu, M. (Eds.), pp. 121139. Bari, Italy: Edipuglia.Google Scholar
Wu, J., Zhang, M., Wu, J., Li, Q., Li, J., Deng, Z. & Xia, J. (2011). Study on the diversification of origins and primary development of Chinese porcelain glazes. Sci China Technol Sci 54(1), 99104.CrossRefGoogle Scholar
Zhang, F., Chen, Z. & Zhang, Z. (1983). Study on Chinese ancient Liuli. J Chinese Ceram Soc 11(1), 6776 (in Chinese).Google Scholar