Biological resistance of chemically modified aspen composites

Aspen wood (Populus tremula L.) was chemically modified by a two-step procedure consisting of esterification with maleic anhydride (MA) and subsequent oligoesterification with MA and glycidyl methacrylate (GMA) or allyl glycidyl ether (AGE). This chemical modification procedure was carried out on solid wood, veneers and sawdust. The modified wood showed thermoplastic properties and could be thermally formed by hot-pressing. As a result, solid wood and the veneer samples had smooth, glossy surfaces, while a plastic-like material was produced on thermally forming the modified sawdust. The biological resistance of chemically modified and thermally formed samples was assessed by determination of weight loss following exposure to a decay fungus in a laboratory test and by a weathering test. Modified samples exposed to the white rot Coriolus versicolor for 12 weeks in the laboratory were more resistant to decay, with weight losses significantly lower than for the corresponding control samples. Solvents and thermal treatments employed in the chemical modification process had no significant effect on decay resistance of Aspen veneers. However, hot-pressing significantly improved decay resistance in unmodified wood samples by limiting hyphal colonisation of the wood structure. A microscopic comparison of chemically modified and unmodified wood samples was conducted to examine extent of fungal colonisation and decay. Chemical modification was also shown to enhance the weathering resistance of aspen wood to discoloration and surface erosion by UV and rainwater and to stain from mould fungi.