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Ancient Egyptian linen : the role of natron and other salts in the preservation and conservation of archaeolgical textiles : a pilot study

An understanding of the physical and chemical nature of archaeological textiles is an important prerequisite for their successful conservation treatment, display and storage. Ancient Egyptian linen textiles were examined through a combination of optical microscopy, environmental scanning electron microscopy (ESEM), ion chromatography (IC), and energy dispersive X-ray analysis (EDXA). These analytical techniques were used to distinguish between flax fibres, foreign matter present on and within flax fibres, and natron or other salts absorbed into the linen fibres in a form of partial mineralization. The use of ESEM enabled the observation and recording of the movement of salts, in real time, during cycles of hydration and dehydration. Few studies have been undertaken to date on the dynamics of salt crystallisation within organic archaeological materials, and none previous to this has been published showing the dynamics of salt crystallisation within archaeological textiles. Once the dynamics of salt crystallisation were viewed and recorded it became possible to investigate methods for the treatment of salt affected textiles through washing trials followed by alternative methods of drying. The release of salts from linen samples during washing in deionized water was monitored using IC and ESEM with EDXA, showing the pattern of salt removal and retention. The use of IC, ESEM and EDXA to monitor salt removal in textiles has not previously been reported. A conservation treatment for ancient Egyptian linen was developed, incorporating a long water washing to remove salts, soils and organic deposits, followed immediately by carefully controlled freeze drying. This was effective in preserving the integrity of the ancient linen. By combining archaeological, historical and chemical data, this pilot study of the effects of salts upon and within linen textiles has widened our understanding of the role played by salts in both the deterioration and the preservation of the textiles. / Doctor of Philosophy (PhD)

Identiferoai:union.ndltd.org:ADTP/185836
Date January 2002
CreatorsMarsh-Letts, Glennda Susan, University of Western Sydney, School of Civic Engineering and Environment
Source SetsAustraliasian Digital Theses Program
LanguageEnglish
Detected LanguageEnglish

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