Abstract
Last decades, wood was promoted as building material. Wood heat treatment by mild pyrolysis has been reported to improve biological durability and dimensional stability of the material and constitutes an attractive « non biocidal » alternative to classical preservation treatments. Previous studies have shown that conferred properties strongly depend on the heat treatment intensity. A quality control marker based on mass loss has been developed. For several years, the increased development of Tunisian wood industry provides a significant capacity of wood production and transformation. Forests in Tunisia consist essentially of coniferous species [Aleppo pine (Pinus halepensis), Radiata pine (Pinus radiata), Maritime pine (Pinus pinaster), Stone pine (Pinus pinea)], characterised by a weak natural durability. Improved durability and fungal resistance should allow the use of Tunisian species in the wood industry. Import limitation of European species and the use of local species allow the conservation of economic value added in the country and improve the economic balance. For this reason, several Tunisian softwood species (Aleppo pine, Radiata pine and Maritime pine) have been heat-treated under vacuum atmosphere at 230°C to obtain a thermal degradation with mass losses of approximately 8, 10 and 12%. The oven device allows recording the dynamic Mass Loss (ML) during the treatment and following the thermodegradation kinetic. The chemical composition of the studied wood samples was determined before and after heat treatment. For each wood species and treatment intensity, wood chemical and mechanical analyses were performed by measuring O/C ratio, bending and hardness tests. Afterward, tests of decay resistance were performed according to the EN 113 Standard, with different fungal attacks (Poria Placenta, Coriolus Versicolor) at 22°C and 70% of humidity for 16 weeks. Results were related to the mass loss. Furthermore, intensity of thermal degradation was evaluated by TD-GC-MS. Treated and untreated wood samples were maintained during 15 minutes at 230 °C under nitrogen in the thermodesorption tube in order to analyse and compare resulting from the wood thermodegradation volatile compounds.
Highlights
The Wood industry in Tunisia has been working to increase its production
Correlation between O/C ratio and intensity level of treatment (ML %) Results revealed that the ratio of oxygen to carbon decreased as the oxygen was removed to the material
Elemental composition was strongly correlated with the heat treatment intensity depending from treatment duration, which directly conditioned the mass losses due to thermal degradation (Figure 2)
Summary
The Wood industry in Tunisia has been working to increase its production. Wood is used as industrial wood (20% of the total production), furniture (10%), wood for utility service (10%) and energy applications (60%). One objective of the industry is to increase the economic valorisation and to improve the national economy. The limited use of wood as a building material is due to the low natural durability of Tunisian woods and leads to low market prices. Producing wood materials with decay resistance and dimensional stability could improve the quality of the local wood. Heat treatment is an alternative wood preservation method that does not involve additional chemical impregnation, allowing to improves biological durability and dimensional stability (Poncsak et al 2010), while reducing some mechanical properties (Yildiz et al 2006)
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