Journal
WOOD MATERIAL SCIENCE & ENGINEERING
Volume -, Issue -, Pages -Publisher
TAYLOR & FRANCIS LTD
DOI: 10.1080/17480272.2023.2289612
Keywords
laser diffraction analysis; particle-size distribution; sieve analysis; wood dust
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The study aimed to assess the particle-size distribution of the finest dust produced during sanding of unmodified and thermally modified pine wood and formulate an empirical model. The results showed that sanding of thermally modified wood generated more fine dust, with lower feed speeds and larger grit sizes resulting in higher fine dust content. The mass share of dust produced during sanding was significantly higher for thermally modified wood compared to unmodified wood.
The study's objective was to assess the particle-size distribution and formulate an empirical model for the content of the finest dust created during the sanding of unmodified and thermally modified pine wood. The experimental design included unmodified and two options of thermally modified pine (Pinus sylvestris L.) wood samples, four feed speeds (3; 6; 9; 12 mmin(-1)), and three grit sizes of sanding belts (P60; P80; P100). The wood dust samples underwent sieve analysis to determine the particle-size distribution and laser analysis to determine the content of the finest particles. The sanding of thermally modified wood produced a higher amount of fine dust compared to unmodified wood. The content of fine dust increased with decreasing feed speed, while larger grit sizes resulted in increased production of fine dust. The average mass share of dust < 2.5, < 4, and < 10 m was significantly lower when sanding the unmodified wood than thermally modified wood. The influence of feed speed, grit size, and material type on dust creation suggests that thermal modification is a factor in increasing the content of the potentially harmful finest particles (respirable fraction). The presented empirical model can help minimize health risks during the sanding of thermally modified pine wood by adjusting the sanding parameters.
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