WOOD RESEARCH Volume 70, Number 3, 2025
Holta Çota, ENTELA LATO, DOKLEA QUKU, HEKTOR THOMA, and ERALD KOLA

The Effect of Heat Treatment on Compression Strength of Silver fir (Abies alba Mill.) and Ash Wood (Fraxinus angustifolia Vahl.). Short notes

This study investigates the effects of thermal modification on the compressive strength parallel to the grain of ash (Fraxinus angustifoglia Vahl.) and fir (Abies alba Mill.) wood. Specimens were thermally treated at 130°C, 180°C, and 220°C for durations of 2 and 8 h under atmospheric conditions. Mass loss increased with both temperature and time, with fir exhibiting greater loss than ash, up to 20.3% and 15.7%, respectively, at 220°C for 8 h. Compressive strength was influenced significantly by treatment intensity. Fir showed minor improvements at lower temperatures but experienced a reduction of up to 23.0% at the highest treatment. In contrast, ash displayed enhanced strength at 180°C (up to +15.1 %) and retained better mechanical performance at 220°C, with a maximum reduction of 11.3%. These findings demonstrate that heat treatment can both enhance and deteriorate compressive strength depending on the treatment severity, emphasizing the need to optimize thermal parameters for maintaining structural performance in wood applications.

WOOD RESEARCH Volume 68, Number 4, 2023
Dritan Ajdinaj, Holta Çota, Fakije Zejnullahu, Rrahim Sejdiu, Agron Bajraktari, and Keli Mustafaraj

Noise Emission and Quality of Surface of Thermally Modified Silver Fir Wood Planed by Horizontal Milling Machine

This study was conducted to provide information regarding to noise emission and the surface quality of silver fir wood (Abies alba Mill.) planed at different feed rates after thermal modification. Four groups of sixteen samples were prepared. One group was used as control and the others were heated at 160°C, 190°C and 220°C, at atmospheric pressure for 3 h. After, all samples were processed along the grain by a planer machine, 3 m/min and 10 m/min feed rates were applied. Noise was measured using a sound level meter, while surface roughness measurements were performed by a stylus profilometer. Higher feed rates produced noticeably higher noise emission as for natural wood as for thermally modified one. The temperature was found to have a modest positive effect on the noise reduction. The increase of temperature and feed rate affected the increase in the surface roughness of the wood. Feed rate resulted as a more significant factor on the noise emission and on the surface roughness than temperature.