How thermal treatment affects the chemical composition and the physical, mechanical and swelling properties of Scots pine juvenile and mature wood

Broda, Magdalena; Popescu, Carmen-Mihaela; Poszwa, Kamil; Roszyk, Edward

doi:10.1007/s00226-024-01561-2

Wood Sci Technol

2024

DOI: 10.1007/s00226-024-01561-2

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How thermal treatment affects the chemical composition and the physical, mechanical and swelling properties of Scots pine juvenile and mature wood

Magdalena Broda,

Carmen-Mihaela Popescu,

Kamil Poszwa

et al.

Abstract: High variations in juvenile wood properties in the radial direction and its worse performance than mature wood make it less suitable for some applications and often treated as waste material. This study aimed to assess how thermal modification affects the chemical composition and the physical, mechanical and swelling properties of Scots pine juvenile and mature wood. An additional goal was to evaluate if the modification can equalise the differences in selected properties of juvenile wood to those of mature wo… Show more

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Cited by 2 publications

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Moisture sorption and its induced deformation of juvenile wood at different radial positions in poplar wood at the tissue scale

Yin,

Zhou,

Zhou

et al. 2024

Industrial Crops and Products

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Moisture sorption and its induced deformation of juvenile wood at different radial positions in poplar wood at the tissue scale

Yin,

Zhou,

Zhou

et al. 2024

Industrial Crops and Products

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Effects of Wood Drying Temperatures on the Reduction in Mechanical Properties of Japanese Cedar (Cryptomeria japonica D. Don) Perpendicular to Grain

Toba,

Nakai,

Saito

2024

Buildings

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Wood drying is often accompanied by changes in mechanical properties due to external thermal energy. This study examined the influences of drying temperature on the mechanical properties of Japanese cedar based on the partial compression properties and bending properties. Two types of longitudinal specimens with quarter grain on both lateral surfaces were prepared under green conditions, followed by subsequent drying under each drying temperature (20 °C, 40 °C, 60 °C, 80 °C, and 100 °C). Then, the partial compression and bending tests were performed using the respective specimens. Young’s modulus perpendicular to grain, yield stress, and compressive strength obtained by the partial compressive test were highest for wood dried at 20 °C. It was considered that the decrease in mechanical properties was attributed to the thermal influences during drying at 100 °C and other factors such as compressive residual stress and cell walls collapsing at lower temperatures. The strain energy suggested that the effects of drying temperature became apparent, especially in the plastic region during loading in the direction perpendicular to the wood fiber. Bending properties showed little influence on drying temperatures compared to the partial compressive properties, whereas the fractures found under the loading point of the wood dried at 100 °C suggested a reduction in resistance to shear forces.

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How thermal treatment affects the chemical composition and the physical, mechanical and swelling properties of Scots pine juvenile and mature wood

Cited by 2 publications

References 84 publications

Moisture sorption and its induced deformation of juvenile wood at different radial positions in poplar wood at the tissue scale

Moisture sorption and its induced deformation of juvenile wood at different radial positions in poplar wood at the tissue scale

Effects of Wood Drying Temperatures on the Reduction in Mechanical Properties of Japanese Cedar (Cryptomeria japonica D. Don) Perpendicular to Grain

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