Abstract
Creep in archaeological oak samples and planks from the Vasa ship impregnated with polyethylene glycol (PEG) has been studied in museum-like climate. Creep studies of duration up to three years have been performed in nearly constant relative humidity and temperature of the controlled museum climate. Cubic samples were subjected to compressive creep tests in all orthotropic directions. Additionally, the creep behaviour of planks with and without PEG and of recent oak was tested in four-point bending. The experimental results have been summarised and also compared with reference results from recent oak wood. The effect of variable ambient conditions on creep and mass changes is discussed. The experimental results of creep in the longitudinal direction showed deformations even for the low stresses. There is relatively much more scatter in creep behaviour, and not all samples showed linear viscoelastic response. The creep in radial and tangential directions of the cubes and the plank samples showed a strong dependency on the ambient conditions. Some samples showed expansion for decreasing moisture content, possibly caused by the thermal expansion of the PEG component. For the planks, increasing creep deformation was observed induced by changing ambient conditions. Such behaviour may be related to e.g. oscillations in ambient conditions and presence of PEG in the wood cell wall and cell lumen. The behaviour of PEG archaeological wood depends on the level of deterioration that occurred over centuries. However, although the findings presented here apply to this specific case, they provide a unique view on such wood.
Highlights
Wood as a material has played and continues to play a significant role for humanity
The variable ambient conditions have a higher impact on mass, and on moisture content, of wood with high polyethylene glycol (PEG) content
Cell lumen and vessel cavities can be filled with PEG, which results in significantly increased moisture-induced mass changes during the annual variations in climate
Summary
Wood as a material has played and continues to play a significant role for humanity. It has been used since prehistoric times as a preferred structural material for buildings and toolsUppsala University, Lägerhyddsvägen 1, 752 37, Uppsala, SwedenMech Time-Depend Mater (2019) 23:35–52 and has by no means lost its popularity today. Wood as a material has played and continues to play a significant role for humanity. It has been used since prehistoric times as a preferred structural material for buildings and tools. Historical wood artifacts take a significant place in the museum expositions all around the world. Wood is a degradable biopolymer with a porous and cellular structure. It is significantly affected by the environment to which it is exposed. In addition to the effects of moisture and temperature, chemical and biological degradation make preservation of wooden artifacts an important and challenging task for museums. For wood artifacts, which are in danger of deformation and fracture damage due to changes in moisture content, special care has to be taken
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