Abstract
Wood is a truly sustainable and aesthetically pleasant material used in indoor and outdoor applications. Every material, including wood, is expected to have long-term durability and to retain its original appearance over time. One of the major disadvantages of wood is the deterioration of its surface when exposed outdoors, known as weathering. Although weathering is primarily a surface phenomenon, it is an important issue for wood products as it affects their appearance, service life, and wood-coating performance. To encourage the use of wood as a material for joinery and other building components, the results of research into increasing the weathering resistance of wood are extremely significant. The development of weathering protection methods is of great importance to reduce the maintenance requirements for wood exposed outdoors and can have a major environmental impact. There are various methods of protecting wood surfaces against weathering. This paper provides a literature survey on the recent research results in protecting wood from weathering. The topics covered include surface treatments of wood with photostabilizers; protection with coatings; the deposition of thin film onto wood surfaces; treatments of wood with inorganic metal compounds and bio-based water repellents; the chemical modification of wood; the modification of wood and wood surfaces with thermosetting resins, furfuryl alcohol, and DMDHEU; and the thermal modification of wood.
Highlights
They reported that pretreatment with a combination of UV absorbers or PEG followed by polyurethane coating containing Tinuvin-1130 photostabilizer reduced wood discolouration by 30% compared to wood without pretreatment
It has been found that the combination of light stabilizers and sol-gel thin films deposited on the wood surface can improve the weathering resistance of softwood [108]
Since lignin is the wood component that is most susceptible to photodegradation, a logical way to increase the resistance of wood surface to UV radiation and weathering would be to use compounds and treatments that can modify lignin
Summary
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations. The erosion of the wood surface is the result of chemical degradation of the wood by UV and visible light followed by a mechanical abrasion due to rain and wind [9]. It has been shown that visible light up to the violet region contributes to surface discolouration [17,18] In addition to these visible changes in the wood surface, weathering affects the wettability of the wood surface [10,20], the surface layer strength [21,22,23], chemical composition [6,8,24,25], and microscopic structure of the wood surface [26,27,28,29].
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