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General: Provide graduate students with fundamental knowledge of some of the main physical properties of wood. Specific: -Offer training on the standards, methods, tests, and instruments used to measure the main physical properties of wood; -Encourage students to seek innovative and non-traditional methods, aiming to obtain data with greater depth and innovative potential.

Wood-water relations; Density and specific gravity; Dimensional stability; Electrical properties.

GLASS, S. V.; ZELINKA, S. L. Moisture relations and physical properties of wood. In: FOREST PRODUCTS LABORATORY. Wood Handbook: wood as an engineering material. Madison: United States Department of Agriculture, Forest Service, Forest Products Laboratory, 2021. p. 4-1 – 4-22. Disponível em: < https://www.fs.usda.gov/research/treesearch/62200 >. Acesso em: 16 mar. 2023. SHMULSKY, R; JONES, P.D. Density and specific gravity. In: SHMULSKY, R; JONES, P.D. Forest products and wood science: an introduction. 6th edition. West Sussex: John Willey and Sons, 2011. Chapter 8, p. 175 – 195. SHMULSKY, R; JONES, P.D. Wood and water. In: SHMULSKY, R; JONES, P.D. Forest products and wood science: an introduction. 6th edition. West Sussex: John Willey and Sons, 2011. Chapter 7, p. 141 – 174.

BUREAU INTERNATIONAL DES POIDS ET MESURES. The International System of Units (SI). 9th Edition. [S.l.]: [s.n.]. 2019. Disponível em: <https://www.bipm.org/utils/common/pdf/si-brochure/SI-Brochure-9-EN.pdf>. Acesso em: 05 jun. 2020. CIRAD. Tropix 7: the main technological characteristics of 245 tropical wood species. Banco de Dados. Disponível em: <https://tropix.cirad.fr/en/technical-sheets-available>. Acesso em: 28 dez. 2025. INSTITUTO DE PESQUISAS TECNOLÓGICAS. Informações sobre madeiras. Banco de Dados. Disponível em: < https://madeiras.ipt.br/ >. Acesso em: 28 dez. 2025. FREDRIKSSON, M.; THYBRING, E.E. On sorption hysteresis in wood: separating hysteresis in cell wall water and capillary water in the full moisture range. Plos One, [S.l.], v. 14, n. 11, e0225111. https://doi.org/10.1371/journal.pone.0225111. Acesso em: 28 dez. 2025. NIEMZ, P.; TEISCHINGER, A.; SANDBERG, D. (editores). Springer handbook of wood science and technology. Springer: Cham, 2023. https://doi.org/10.1007/978-3-030-81315-4 NENNEWITZ, I.; NUTSCH, W.; PESCHEL, P.; SEIFERT, G. Manual de tecnologia da madeira. Tradução da 4ª edição alemã. São Paulo: Blucher, 2008. 360 p. SERVIÇO FLORESTAL BRASILEIRO. Database of Brazilian Woods. Banco de Dados. Disponível em: < https://lpf.florestal.gov.br/pt-br/madeiras-brasileiras >. Acesso em: 28 dez. 2025. SPEAR, M.; WALKER, J. Dimensional instability in timber. In: WALKER, J. Primary wood processing: principles and practice. 2nd edition. Dordrecht: Springer, 2006. Chapter 4, p. 95 – 120. WALKER, J. Water in wood. In: WALKER, J. Primary wood processing: principles and practice. 2nd edition. Dordrecht: Springer, 2006. Chapter 3, p. 69 – 94. WENTZEL, M.; ALTGEN, M.; MILITZ, H. Analyzing reversible changes in hygroscopicity of thermally modified eucalypt wood from open and closed reactor systems. Wood Science and Technology, [S.l.], v. 52, n. 4, p. 889-907, 2018. https://doi.org/10.1007/s00226-018-1012-3. Acesso em: 28 dez. 2025.