Effect of larch wood extractive leaching on accelerated weathering aging durability of oil-based coatings

Cogulet, A., Blanchet, P., Landry, V., 2019: Evaluation of the impacts of four weathering methods on two acrylic paints: showcasing distinctions and particularities. Coatings, 9:121. Search in Google Scholar

Cristea, M. V., Riedl, B., Blanchet, P., 2010: Enhancing the performance of exterior waterborne coatings for wood by inorganic nanosized UV absorbers. Progress in Organic Coatings, 69:432–441. Search in Google Scholar

Crestini, C., D’Áuria, M., 1996: Photodegradation of lignin: the role of singlet oxygen. Journal of Photo-chemistry and Photobiology A: Chemistry, 101:69–73. Search in Google Scholar

Crewdson, M. J. Ketola, W. D., 2009: Best practices in weathering: outdoor and accelerated testing compared. European Coatings Journal, 4:116–121, 116–121. Search in Google Scholar

Evans, P. D., Haase, J. G., Shakri, A., Seman, B. M., Kiguchi, M., 2015: The search for durable exterior clear coatings for wood. Coatings, 5:830–864. Search in Google Scholar

Feist, W. C., 1990: Outdoor wood weathering and protection (ed. Rowell, R. M.). Advanced in Chemistry Series No. 225. Washington, DC: American Chemical Society. Chapter 11:263–298. Search in Google Scholar

Feist, W. C. 1988: Outdoor Wood Weathering and Protection. In: Rowell, R. M., Barbour, R. J. (eds.): Archaeological wood: properties, chemistry, and preservation. Advances in Chemistry Series 225. Proceedings of 196^th meeting of the American Chemical Society, Los Angeles. Washington, DC: American Chemical Society, Chapter 11. Search in Google Scholar

Gandelová, L., Šlezingerová, J., Horáček, P., 2002: Nauka o dřevě. Brno, Mendelova zemědělská a lesnická univerzita v Brně. ISBN 80-7157-577-1. (In Czech). Search in Google Scholar

Gonzalez de Cademartori, P. H., Missio, A. L., Dufau Mattos, B., Gatto, D. A., 2015: Natural weathering performance of three fast-growing Eucalypt woods. Maderas. Ciencia y Tecnología, 17:799–808. Search in Google Scholar

Hochmańska-Kaniewska, P., Janiszewska, D., Oleszek, T., 2022: Enhancement of the properties of acrylic wood coatings with the use of biopolymers. Progress in Organic Coatings, 162:106522. Search in Google Scholar

Karlsson, O., Jones, D., Sandberg, D., 2022: Phenolformaldehyde-resin treatment of Scots pine sapwood for the reduction of resin exudation through coatings. Wood Material Science & Engineering, p. 1–3. Search in Google Scholar

Kim, I., Karlsson, O., Myronycheva, O., Jones, D., Sand-berg, D., 2020: Methacrylic resin for protection of wood from discoloration by mould growth and weathering. BioResources, 15:7018–7033. Search in Google Scholar

Matsuo, M., Yokoyama, M., Umemura, K., Sugiyama, J., Kawai, S., Gril, J. et al., 2011: Aging of wood: Analysis of color changes during natural aging and heat treatment. Search in Google Scholar

Myronycheva, O., Sehlstedt-Persson, M., Karlsson, O. and Sandberg, D., 2018: Growth of Mold and Rot Fungi on Copper-impregnated Scots Pine Sapwood: Influence of Planing Depth and Inoculation Pattern. BioResources, 13:8787–8801. Search in Google Scholar

Oberhofnerová, E., Pánek, M., García-Cimarras, A., 2017: The effect of natural weathering on untreated wood surface. Maderas. Ciencia y Technology, 19:173–184. Search in Google Scholar

Oberhofnerová, E., Pánek, M., Podlena, M., Pavelek, M., Štěrbová, I., 2019: Color stabilization of Siberian and European larch wood using UVA, HALS, and nano-particle pretreatments. Forests, 10:23. Search in Google Scholar

Özgenc, O., Hiziroglu, S., Yildiz, U. C., 2012: Weathering properties of wood species treated with different coating applications. BioResources, 7:4875–4888. Search in Google Scholar

Pánek, M., Reinprecht, L., 2014: Colour stability and surface defects of naturally aged wood treated with transparent paints for exterior constructions. Wood Research, 59:421–430. Search in Google Scholar

Pánek, M., Reinprecht, L., 2016: Effect of the number of UV-protective coats on the color stability and surface-defects of painted black locust and Norway spruce woods subjected to natural weathering. BioRe-sources, 11:4663–4676. Search in Google Scholar

Petrič, M., 2013: Surface modification of wood. Reviews of Adhesion and Adhesives, 1:216–247. Search in Google Scholar

Podgorski, L., Grüll, G., Georges, V., Truskaller, M., Bollmus, S., 2011: Coating performance on different types of modified wood: natural and artificial weathering results. Surface Coatings International 94:139–150. Search in Google Scholar

Reinprecht, L., 2008: Ochrana dreva. Technical University in Zvolen, 453 p. Search in Google Scholar

Sarvašová Kvietková, M., Gašparík, M., 2021: Surface irregularities of oak wood after transversal cutting with a circular saw. Wood Research, 66:1032–1045. Search in Google Scholar

Šimůnková, K., Oberhofnerová, E., Reinprecht, L., Pánek, M., Podlena, M., Štěrbová, I., 2019: Durability of selected transparent and semi-transparent coatings on Siberian and European larch during artificial weathering. Coatings, 9:39. Search in Google Scholar

Štěrbová, I., Oberhofnerová, E., Pánek, M., Dvořák, O. Pavelek, M., 2021: Influence of different exposition of larch wood facade models on their surface degradation processes. Central European Forestry Journal, 67:45–53. Search in Google Scholar

Tolvaj, L., Faix, O., 1995: Artificial ageing of wood monitored by drift spectroscopy and CIE l*a*b* color measurements. 1. Effect of UV light. Holzforschung 49:397–404. Search in Google Scholar

Tomášková, I., Pastierovič, F., Krejzková, A., Čepl, J., Hradecký, J., 2021: Norway spruce ecotypes distinguished by chlorophyll a fluorescence kinetics. Acta Physiologiae. Search in Google Scholar

Williams, R.S ., Knaebe, M. T., Feist, W. C.,1996: Finishes for exterior wood. Madison: Forest Products Society. Search in Google Scholar

Xie, Y., Fu, Q., Wang, Q., Xiao, Z., Militz, H., 2013: Effects of chemical modification on the mechanical properties of wood. European Journal of Wood and Wood Products, 71:401–416. Search in Google Scholar

EN ISO 2813, 2014: Paints and varnishes. Determination of gloss value at 20 degrees, 60 degrees and 85 degrees. Search in Google Scholar

EN 350, 2019: Durability of wood and wood-based products – Testing and classification of the durability to biological agents of wood and wood-based material. Search in Google Scholar

EN 927-6, 2019: Paints and varnishes. Coating materials and coating systems for exterior wood. Part 6: Exposure of wood coatings to artificial weathering using fluorescent UV lamps and water. Search in Google Scholar

EN 927-3, 2020: Paints and varnishes. Coating materials and coating systems for exterior wood. Part 3: Natural weathering test. Search in Google Scholar

http://meteostanice.agrobiologie.cz Search in Google Scholar