Changes in cell wall components and hygroscopic properties of Pinus radiata caused by heat treatment

After thermal modification at 210 °C using the Thermowood method, changes in Pinus radiata D. Don wood cell wall components and hygroscopicity were studied for subsequent comparison with recently felled wood of the same species in samples from the same region of provenance (Basque Country, Spain). T...

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Bibliographic Details
Published in:European journal of wood and wood products 2021-07, Vol.79 (4), p.851-861
Main Authors: García-Iruela, Alberto, Esteban, Luis García, García Fernández, Francisco, de Palacios, Paloma, Rodriguez-Navarro, Alejandro B., Martín-Sampedro, Raquel, Eugenio, María Eugenia
Format: Article
Language:English
Subjects:
Biomedical and Life Sciences
Cell walls
Cellulose
Ceramics
Chemical composition
Composites
Crystal structure
Crystallinity
Degree of crystallinity
Epitaxial growth
Glass
Heat treatment
Heat treatments
Hemicellulose
High performance liquid chromatography
Hygroscopicity
Infrared spectroscopy
Life Sciences
Liquid chromatography
Machines
Manufacturing
Moisture content
Natural Materials
Original Article
Pinus radiata
Processes
Recrystallization
Water content
Wood
Wood Science & Technology
X-ray diffraction
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Summary:After thermal modification at 210 °C using the Thermowood method, changes in Pinus radiata D. Don wood cell wall components and hygroscopicity were studied for subsequent comparison with recently felled wood of the same species in samples from the same region of provenance (Basque Country, Spain). To this end, samples were characterised by sorption isotherms at 15, 35 and 50 °C fitted to the Guggenheim–Anderson–de Boer (GAB) model, the chemical composition was obtained by high performance liquid chromatography (HPLC) and infrared spectroscopy (FTIR), and crystallinity and structural organisation of cellulose (crystal orientation) were determined using powder and 2D X-ray diffraction (XRD). Heat treatment caused the following changes in the wood: a decrease in the equilibrium moisture content (EMC); a smaller hysteresis area and therefore more hygroscopically stable wood; a decrease in the hemicellulose content; an increase in the relative percentage of cellulose, lignin and extractives; and a higher degree of crystallinity and crystal orientation of the cellulose. The reorganisation of cellulose could be explained by epitaxial growth of cellulose starting from the highly oriented crystalline regions during the recrystallisation process. All these chemical and structural changes induced by heating could explain the reduction in hygroscopic properties of wood, as well as its stability.
ISSN:0018-3768
1436-736X
DOI:10.1007/s00107-021-01678-2