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Studies in Conservation Volume 54, 2009 - Issue 2
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Articles

Use of Silanol-Terminated Polydimethylsiloxane in the Conservation of Waterlogged Archaeological Wood

Panayiotis K. Kavvouras
,
Chari Kostarelou
,
Angeliki Zisi
,
Maria Petrou
&
Georgianna Moraitou
Pages 65-76 | Published online: 19 Jul 2013

  • Petrou, M.P, Development of Methodology for the In Situ Preservation of Wetland Archaeological Sites in Greece, PhD Thesis, University of Bradford (2008).
  • Grattan, D.W, ‘A practical comparative study of several treatments for waterlogged wood’, Studies in Conservation 27 (1982) 124–136.
  • Hoffmann, P, ‘On the stabilization of waterlogged oakwood with PEG: II. Designing a two-step treatment for multi-quality timbers’, Studies in Conservation 31 (1986) 103–113.
  • Hafors, B., ‘The role of the Vasa in the development of the polyethylene glycol preservation method’, in Archaeological Wood: Properties, Chemistry and Preservation, ed. R.M. Rowell and R.J. Barbour, Advances in Chemistry Series 225, American Chemical Society, Washington DC (1990) 195–216.
  • Almkvist, G., The Chemistry of the Vasa: Iron, Acids and Degradation, Doctoral Thesis, Department of Chemistry, Swedish University of Agricultural Sciences, Uppsala, Acta Universitatis agriculturae Sueciae Vol. 2008:57 (2008).
  • Glastrup, J., Shashoua, Y, Egsgaard, H., and Mortensen, M.N. ‘Degradation of PEG in the Warship Vasa', Macromolecular Symposia 238 (1) (2006) 22–29.
  • Sandstrom, M., Jalilehvand, F., Persson, I., Gelius, U. and Frank, P., ‘Acidity and salt precipitation on the Vasa: The sulfur problem’, in Proceedings of the 8th ICOM Group on Wet Organic Archaeological Materials Conference, Stockholm, 11-15 June 2001, ed. P. Hoffmann, J.A. Spriggs, T. Grant, C. Cook and A. Recht, ICOM Committee for Conservation, Bremerhaven (2002) 67–89.
  • Fincher, E.L., and Payne, WJ. ‘Bacterial utilization of ether glycols’, Journal of Applied Microbiology 10 (6) (1962) 542–547.
  • Li, P, and Gu, J.-D., ‘Characterization of aerobic bacteria involved in degrading polyethylene glycol (PEG)-3400 obtained by plating and enrichment culture techniques’, Journal of Polymers and the Environment 15 (2007) 57–65.
  • Padfield, T., Winslow, J., Pedersen, W.B., and Glastrup, J., ‘Decomposition of polyethylene glycol (PEG) on heating’, in ICOM Committee for Conservation, 9th Triennial Meeting, Dresden, 26-31 August 1990: Preprints, ed. K. Grimstad, ICOM Committee for Conservation, Los Angeles (1990) 243–245.
  • Beers, D.M., ‘Silicone adhesive sealants’, in Handbook of Adhesives, ed. I. Skeist, VNR Company, New York (1977) 628–639.
  • Jerschow, P., Silicone Elastomers, Rapra Technology Ltd, Shawbury, UK (2001).
  • Delor-Jestin, F., Tomer, N.S., Singh, R.P, and Lacoste, J., ‘Durability of crosslinked polydimethylsyloxanes: The case of composite insulators’, Science and Technology of Advanced Materials 9 (2) (2008) 1–6.
  • Von Hagens, G., Animal and Vegetal Tissues Permanently Preserved by Synthetic Resin Impregnation, US Patent 4205059 (1980).
  • Hamilton, D.L., ‘Methods of conserving underwater archaeo­logical material culture’, Conservation Files: ANTH 605, Conservation of Cultural Resources I. Nautical Archaeology Program, Texas A&M University, http://nautarch.tamu.edu/class/anth605/File6.htm (1998) ( accessed 1 April 2009).
  • Klosowski, J.M., and Smith, C.W., Method of Conserving Waterlogged Materials, US Patent 6020027 (2000).
  • Klosowski, J.M., Smith, C.W, and Hamilton, D.L., Conservation of Organic and Inorganic Materials, US Patent 6835411 (2004).
  • Klosowski, J.M., Smith, C.W, and Hamilton, D.L., Conservation of Organic and Inorganic Materials, US Patent 6881435 (2005).
  • Smith, C.W, Archaeological Conservation Using Polymers: Practical Applications for Organic Artifact Stabilization, Texas A&M University Anthropology Series No. 6, Texas A&M University Press, College Station, Texas (2003).
  • Wynne, K.J., Ho, T., Johnston, E.E., and Myers, S.A., ‘Surface science and stability of networks prepared hydroxy-terminated polydimethylsiloxane and methyltriethoxysilane’, Applied Organometallic Chemistry 12 (1998) 763–770.
  • Kavvouras, PK., Kostarelou, C., Zisi, A., Petrou, M., and Moraitou, G., Application of Silicone Polymers for the Conservation of Wooden Archaeological Artefacts, internal report, Forest Research Institute, Athens (2007).
  • Chen, P.Y.S., Zhang, G., and Van Sambeek, J.W, ‘Relationships among growth rate, vessel lumen area, and wood permeability for three central hardwood species’, Forest Products Journal 48 (3) (1988) 87–90.
  • Siau, J.F, Transport Processes in Wood, Springer-Verlag, New York (1984) 104.
  • Brinker, C.J., and Scherer, G., Sol-Gel Science: The Physics and Chemistry of Sol-Gel Processing, Academic Press, London (1990).
  • Greenspan, L., ‘Humidity fixed points of binary saturated aqueous solutions’, Journal of Research of the National Institute of Standards A: Physics and Chemistry 81 (1) (1977) 89–96.
  • Hoffmann, P., and Jones, M.A., ‘Structure and degradation process for waterlogged archaeological wood’, in Archaeological Wood: Properties, Chemistry and Preservation, ed. R.M. Rowell and R.J. Barbour, Advances in Chemistry Series 225, American Chemical Society, Washington DC (1990) 35–66.
  • Kavvouras, PK., ‘Identification of the wood of Greek forest species based on cross-section macroscopic features’, www.fria.gr/WoodId.html ( accessed 1 April 2009).
  • Bednar, H., and Fengel, D., ‘Physikalische, chemische und strukturelle Eigenschaften von rezentem und subfossilem Eichenholz’, Holz als Roh- und Werkstoff 32(3) (1974) 99–107.
  • Henderson, F.Y., A Handbook of Softwoods, Her Majesty’s Stationery Office, London (1957).
  • Farmer R.H., Handbook of Hardwoods, Her Majesty’s Stationery Office, London, (1972).
  • Tsoumis, G., Wood as Raw Material, Pergamon Press, London (1968).
  • Rossell, S.E., Abbot, E.G.M., and Levy, J.F, ‘A review of the literature relating to the presence, action, and interaction of bacteria in wood’, Journal of the Institute of Wood Science 6 (1973) 28–35.
  • Jensen, P, and Gregory, D., ‘Selected physical parameters to characterize the state of preservation of waterlogged archaeological wood: A practical guide for their determination’, Journal of Archaeological Science 33 (4) (2006) 551–559.
  • Kaye, B., ‘Conservation of waterlogged archaeological wood’, Chemical Society Reviews 24 (1) (1995) 35–43.
  • Unger, A., and Unger, W, ‘Detection methods for biological damage in wooden cultural property: A review’, in Third International Conference on Biodeterioration of Cultural Property, Bangkok, Thailand, 4-7 July 1995, ed. C. Aranyanak and C. Singhasiri, Thammasat University Press, Bangkok (1995) 181–186.
  • Wheeler, G., Alkoxysilanes and the Consolidation of Stone, The Getty Conservation Institute, Los Angeles (2005).
  • Van der Weij, F.W., ‘The action of tin-compounds in condensation-type RTV silicone rubbers’, Die Makromolekulare Chemie 181 (1980) 2541-2548.
  • ‘Methyltrimethoxysilane 97% material safety data sheet’, www.coleparmer.in./catalog/Msds/50922.htm ( accessed 23 March 2009).
  • Timar-Balazsy, A., and Eastop, D., Chemical Principles of Textile Conservation, Butterworth-Heinemann, London (1998).
  • Hsiao, Y-C., Hill, L.W, and Pappas, S.P, ‘Reversible amine solubilization of cured siloxane polymers’, Journal of Applied Polymer Science 19 (10) (1975) 2817–2820.
  • Chang, C.L., Don, T.M. Lee, H.S.J., and Sha, Y.O., ‘Studies on the aminolysis of RTV silicone rubber and modifications of degradation products’, Polymer Degradation and Stability 85 (2) (2004) 769–777

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