RESUMO
Wood coatings prolong the service life of wood-based products, but they are usually of synthetic origin. The aim of the present article is to reduce the fossil-based compounds in a commercial waterborne acrylic coating by CNC addition and to test its performance. The coatings were applied on European beech and Norway spruce wood in order to test durability against Gloeophyllum trabeum (brown wood rot) and Trametes versicolor (white wood rot). Artificial weathering and blue stain, contact angle, physical tests (adhesion, impact and scratch test), chemical (FTIR) and morpho-anatomical analysis (SEM) were carried out. CNC addition increased viscosity, limiting the spreading of the coating into wood pores as visible after SEM observation, which reduced coating adhesion on the substrate. CNC improved fungal resistance as seen by a reduced mass loss and FTIR spectroscopy thanks to crosslinks formation, which reduced water sorption as well. Color change was not significant, and, on the other hand, glossiness was reduced but resulted as more homogeneous than control. CNC addition gave good results also in blue stain protection. CNC improved scratch resistance, but no visible change to impact was registered. CNC has promising results in coatings depending on wood and fungal species and presence of further commercial additives (biocides).
RESUMO
There has been a growing interest in seeking natural and biobased preservatives to prevent the wood from deteriorating during its service life, thereby prolonging carbon storage in buildings. This study aims to assess the in vitro and in vivo antifungal properties of epsilon poly-L-lysine (EPL), a secondary metabolite from Actinomyces, against four common wood-inhabiting fungi, including two brown-rot fungi, Gloeophyllum trabeum (GT) and Rhodonia placenta (RP), and two white-rot fungi, Trametes versicolor (TV) and Irpex lacteus (IL), which has rarely been reported. Our results indicate that these fungi responded differently due to EPL treatment. From the in vitro study, the minimal inhibitory concentration of EPL against GT, TV, and IL was determined to be 3 mg/ml, while that of RP was 5 mg/ml. EPL treatment also affects the morphology of fungal hyphae, changing from a smooth surface with a tubular structure to twisted and deformed shapes. Upon EPL treatment with wood samples (in vivo), it was found that EPL could possibly form hydrogen bonds with the hydroxy groups in wood and was uniformly distributed across the transverse section of the wood samples, as indicated by Fourier transform infrared spectroscopy and fluorescence microscopy analyses, respectively. Compared with control wood samples with a mass loss of over 15% across different fungi, wood samples treated with 1% EPL showed negligible or very low (<8%) mass loss. In addition, the thermal stability of EPL-treated wood was also improved by 50%. This study suggests that EPL could be a promising alternative to traditional metallic-based wood preservatives.
RESUMO
No ramo da preservação de madeira, a eficiência de compostos naturais há muito tem sido avaliada, visando encontrar substâncias que não só aumentem a vida útil de madeiras de baixa durabilidade, mas também causem menor dano ao meio ambiente. Nesse contexto, o potencial de extrativos do lenho e da casca das espécies madeireiras Pouteria guianensis,Buchenavia parviflora e Dinizia excelsa em repelir o ataque de cupins Nasutitermes sp. foi avaliado, utilizando-se como substrato a espécie Simarouba amara, de baixa durabilidade. Os extrativos foram obtidos em etanol 95 por cento, diluídos em solução hidroalcoólica (1 e 0,1 por cento), e impregnados em blocos de S. amara, segundo ASTM D1413-76. Os blocos foram montados em quadrado latino em uma plataforma e submetidos ao ataque dos cupins. O efeito das soluções foi classificado pela perda de peso dos blocos de S. amara. Os resultados mostraram que a maioria dos tratamentos conferiu ótima resistência à madeira de S. amara. O melhor tratamento foi aquele efetuado com extrativos da casca de P. guianensis, onde a perda foi somente de 10 por cento do peso inicial dos blocos, enquanto que o menos efetivo foi aquele com extrativos da casca de D. excelsa, com perda de 70 por cento de peso do bloco. Assim, pode-se concluir que os extrativos do lenho e da casca de P. guianensis e B. parviflora e do lenho de D. excelsa apresentam, a princípio, compostos com propriedades de repelência a Nasutitermes sp., e os extrativos da casca de D. excelsa não apresentam estes componentes.
In wood preservation, efficiency evaluation of some natural compounds has been going on for some time, looking for substances that can be used to increase the useful life of wood species, and that are less damaging to the environment. In this context, we evaluted the potential of wood and bark extractives of the species Pouteria guianensis,Buchenavia parviflora and Dinizia excelsa in repelling Nasutitermes sp. As substrate, blocks of Simarouba amara species, of low durability, was used. The extractives were obtained in ethanol 95 percent, diluted in hydro-alcoholic solution (1 percent and 0.1 percent), and impregnated in a block of S. amara, according to ASTM D1413-76. The blocks were arranged on a platform in Latin square and submitted to termite attack. The effect of the solutions on termites was classified according to weight loss of the S. amara blocks. The results showed that a big majority of extractive treatments provided high resistance to S. amara wood. The best treatment was that made with the P. guianensis bark extractives, where loss was only 10 percent of the initial block weight. The less effective treatment was that of the D. excelsa bark extractives, with 70 percent loss of block weight. Thus, we concluded that the wood and bark extractives of P. guianensis and B. parviflora and wood extractives of D. excelsa present chemical compounds with repellent properties against Nasutitermes sp., while the bark extractives of D. excelsa do not.
