Surface Properties of Beech Wood after CO₂ Laser Engraving

• Main Authors: Jozef Kúdela, Ivan Kubovský, Michal Andrejko
• Format: Article
• Language: English
• Published: MDPI AG 2020-01-01
• Series: Coatings
• Subjects: beech wood; co₂ laser; surface properties; color; roughness; wetting; contact angle; surface free energy
• Online Access: https://www.mdpi.com/2079-6412/10/1/77

The paper deals with the properties of a beech wood surface treated by CO₂ laser engraving. The studied concerns were the discoloration, changes to morphology assessed through roughness and waviness parameters, and surface wetting with standard liquids (water and diiodomethane), with the aim of determining the wood surface free energy. The results have confirmed that the studied properties of the beech wood surface varied significantly, which were affected by the laser beam power <i>P</i> and raster density <i>n</i>. With increasing <i>P</i> and <i>n</i>, the lightness <i>L</i>* (expressed in CIE L*a*b* color space) decreased significantly. We also observed significant variation in the color coordinates <i>a</i>* and <i>b</i>*. At 8% laser power, the roughness and waviness parameters measured parallel as well as perpendicular to the grain increased proportionally with the increasing raster density. However, 4% laser power was not associated with distinct changes. Increasing the raster density reduced beech wood surface wetting equally with water and with diiodomethane. This was reflected in the higher contact angle values. The wood surface exhibited higher hydrophobicity at 4% laser power. At this power, the increasing raster density was reflected in the decreasing surface free energy, due to its polar component decrease. At 8% laser power, the changes in surface free energy were very minor from the practical viewpoint. The results suggest a potential good adhesion between film-forming materials and wood. However, the gluing performance may be negatively affected by the high roughness attained at 8% laser power and at higher raster densities.