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Mimicking of the strength loss in the Vasa: model experiments with iron-impregnated recent oak

  • Shahin Norbakhsh , Ingela Bjurhager and Gunnar Almkvist EMAIL logo
Published/Copyright: February 7, 2013
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Holzforschung
From the journal Holzforschung Volume 67 Issue 6

Abstract

Previous studies of the oak wood of the 17th century warship the Vasa have shown significant changes in the chemical and mechanical properties compared with recent oak. The most important factors contributing to these changes are the incorporation of iron compounds during waterlogging and the uptake of polyethylene glycol (PEG) in the course of the 17 years of preservation treatment. To investigate the effect of iron-dependent oxidative degradation reactions, recent oak wood samples were impregnated with aqueous iron(II) chloride solution (0.1 M) and thereafter exposed to air or pure oxygen at controlled relative humidity in long-term experiments followed by tensile strength (TS) measurements. The iron-impregnated samples exposed to oxygen displayed significant effects already after 1 week and the reduction in TS was ~50% after 1 year. The samples treated with additional PEG displayed less TS reduction, whereas the addition of cysteine had no effect. The size exclusion chromatography of treated samples showed that the average molecular weight of holocellulose had decreased. The results confirm that iron compounds have a detrimental effect in wood and indicate that PEG might act as an antioxidant for the degradation processes. Concerning the Vasa, it may be concluded that most degradation related to iron compounds and oxidative processes have taken place during the first period of conservation when the wood was exposed to oxygen in a still very humid state. Thus, the current rate of oxidative degradation under the present relatively dry museum conditions should be relatively low.

Keywords: antioxidant; cysteine; degradation; extractives; iron compounds; oak wood; polyethylene glycol (PEG); preservation; tensile strength; Vasa ship; waterlogged wood
Corresponding author: Gunnar Almkvist, Department of Chemistry, Swedish University of Agricultural Sciences, SE-750 07 Uppsala, Sweden

This project is part of The Swedish National Maritime Museums research program “A Future for Vasa”. Financial support from The Swedish Science Research Council (VR), The Swedish Foundation for Strategic Research (SSF), The Swedish Research Council for Environment, Agricultural Sciences and Spatial Planning (FORMAS), The Swedish Agency for Innovation Systems (VINNOVA), and the National Maritime Museums is gratefully acknowledged. Special thanks to Evalisa Lindfors (Innventia AB) for performing the SEC analyses and Prof. Lars Ivar Elding for the valuable comments on the article.

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Received: 2012-9-18
Accepted: 2013-1-10
Published Online: 2013-02-07
Published in Print: 2013-08-01

©2013 by Walter de Gruyter Berlin Boston

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https://doi.org/10.1515/hf-2012-0150
Keywords for this article
antioxidant; cysteine; degradation; extractives; iron compounds; oak wood; polyethylene glycol (PEG); preservation; tensile strength; Vasa ship; waterlogged wood

Articles in the same Issue

  1. Masthead
  2. Masthead
  3. Review
  4. Novel cellulose-based composites based on nanofibrillated plant and bacterial cellulose: recent advances at the University of Aveiro – a review
  5. Original Articles
  6. Quantitative structural characterization of the lignins from the stem and pith of bamboo (Phyllostachys pubescens)
  7. Fractionation and characterization of lignin-carbohydrate complexes (LCCs) of Eucalyptus globulus in residues left after MWL isolation. Part II: Analyses of xylan-lignin fraction (X-L)
  8. Alkali consumption of aliphatic carboxylic acids during alkaline pulping of wood and nonwood feedstocks
  9. Improvement of kraft pulp bleaching by treatments with laccase, urea, and refining
  10. Development and evaluation of new curing agents derived from glycerol for formaldehyde-free soy-based adhesives in wood composites
  11. Formation of highly hydrophobic wood surfaces using silica nanoparticles modified with long-chain alkylsilane
  12. The fracture behavior of birch and spruce in the radial-tangential crack propagation direction at the scale of the growth ring
  13. Flatwise Young’s modulus and flatwise shear modulus of plywood measured by flexural vibration test
  14. A numerical and experimental study regarding the influence of some process parameters on the damage state in wood chips
  15. Treatment of wood with silica sols against attack by wood-decaying fungi and blue stain
  16. Mimicking of the strength loss in the Vasa: model experiments with iron-impregnated recent oak
  17. Improved heat insulation system (Mirrorpanel) for construction of wood buildings
  18. Meetings
  19. Meetings
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