Abstract
Leaving wooden façades uncoated has become popular in modern architecture, especially for large buildings like multi-story houses, in order to circumvent frequent maintenance, particularly repainting. To obtain a quick and even artificial graying of the entire façade that gradually turns into natural graying, a one-off treatment with iron (II) sulfate may be applied. Its mode of action is commonly ascribed to a reaction with phenolic wood extractives, especially hydrolyzable tannins. This does not however sufficiently explain iron (II) sulfate’s ability to color wood species containing only marginal amounts of phenolic extractives; moreover, little is known about the influence of the wooden substrate and light conditions on the color development of façades treated with iron (II) sulfate. In the present study, we investigated the influence of wood extractives, exposure conditions, and nine different wooden substrates on iron (II) sulfate’s staining effect. Spruce specimens with and without extractives were treated with a 4% iron (II) sulfate solution and exposed to sunlight behind window glass. Both wood types darkened slowly but significantly during 51 weeks of exposure. This shows that artificial graying with iron (II) sulfate (1) does not require precipitation unlike natural graying, (2) takes place without initial wood extractives, and (3) proceeds at a slow rate. Specimens protected from sunlight changed their color only slightly, suggesting that photo-induced phenoxyl and ketyl radicals from photolysis of lignin’s ether bonds oxidize iron (II) to iron (III). Specimens made of spruce, pine, larch, and western red cedar (WRC) and exposed outdoors decreased strongly in lightness during the first two months of exposure. In contrast, a staining effect of iron (II) sulfate in terms of artificial graying was not seen on acetylated radiata pine, possibly because iron ions are hindered from entering the cell wall. Specimens partly protected by a roof overhang showed an uneven color development; this is due to the protection from radiation and not from precipitation as is known for natural graying.
Highlights
The color stability of wood exposed outdoors is poor due to the influence of light, water, heat, microorganisms, oxygen, and atmospheric pollutants like sulfur dioxide
We investigated the influence of wood extractives, light, and nine different wooden substrates treated with iron (II) sulfate on the staining effect
The treated veneers developed a gray-bluish color during the first 4 weeks that became gradually darker over time; in comparison, the references without iron (II) sulfate showed only a slight color change of
Summary
The color stability of wood exposed outdoors is poor due to the influence of light, water, heat, microorganisms, oxygen, and atmospheric pollutants like sulfur dioxide. Of all these factors, Forests 2020, 11, 658; doi:10.3390/f11060658 www.mdpi.com/journal/forests. Wood is highly susceptible to photodegradation, which is mainly ascribed to lignin’s light absorption that results in the formation of aromatic free radicals. These free radicals from lignin react with oxygen forming alkoxyl and peroxyl free radicals, which in turn react with phenoxyl free radicals forming chromophoric compounds like quinones and aromatic ketones. Photodegraded lignin is washed out by rain, leaving whitish holocellulose at the surface [7], which eventually becomes gray due to colonization by mold like the ubiquitous Aureobasidium pullulans [8]
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