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276 N.M. Garz on-Barrero et al. / International Biodeterioration & Biodegradation 115 (2016) 266e276
Mater. Process. 2, 27e32 (In Portuguese). Tib erio, C.G., Claro, N.S., Vecchia, F., 2012. Rigid foam polyurethane (PU) derived
Stark, N.M., Matuana, L.M., Clemons, C.M., 2004. Effect of processing method on from castor oil (Ricinus communis) for thermal insulation in roof systems. Front.
surface and weathering characteristics of wood-flour/HDPE composites. Journal Archit. Res. 1, 348e356.
of Applied Polymer Science, Hoboken, 93, 1021e1030. Yang, D.Q., 2008. Water Absorption of Various Building Materials and Mold Growth.
Sun, F., Bao, B., Fu, S., Chen, A., 2010. Study on the Thickness Swelling of Mould- IRG/WP08e10657. International Research Group on Wood Protection, Istanbul.
resistant Chemical Treated Bamboo Strand Woven Outdoor Flooring. IRG/WP/ Yang, D.Q., 2010. Drying Rates and Mold Growth on Various Building Materials
10e40489. The International Research Group on Wood Preservation, under Different Environmental Conditions. IRG/WP/10e20454. The Interna-
Stockholm. tional Research Group on Wood Preservation, Stockholm.
Teixeira, D.E., Santana, M.A.E., Costa, A.F., 1997. Agglomerated of sugarcane bagasse: Yang, D.Q., Wang, X.M., Wan, H., 2007. Biological Protection of Composite Panel
natural resistance to decay fungi. Sci. For. 52, 29e34 (In Portuguese). from Moulds and Decay. International Research Group on Wood Protection,
Thelandersson, S., Isaksson, T., Ekstrand, T.A., Johansson, P., 2009. Modeling of Onset Wyoming, USA Jackson.
of Mould Growth for Wood Exposed to Varying Climate Conditions. IRG/WP/ Zenid, G.J., 2007. Wood and its characteristics. In: Oliveira, J.T.S., Fiedler, N.C.,
09e20414. The International Research Group on Wood Preservation, Nogueira, M. (Eds.), Technologies Applied to the Wood Sector. Suprema Gr afica
Stockholm. e Editora, Jer^ onimo Monteiro, pp. 125e158 (In Portuguese).
