Use of Pinus oocarpa and Coffea arabica wood for the production of oriented particle board (OSB)

Authors

DOI:

https://doi.org/10.33448/rsd-v11i3.26795

Keywords:

Coffee activity; Residues; Bioproducts; Agriculture; Biomass; Forest resources.

Abstract

Oriented strand board (OSB) is an important engineered wood product, manufactured by gluing strand particles in cross layers, being widely applied in construction, packaging, decking, flooring, wall cladding and even for load-bearing purposes. For the production of these panels, we can use biomass from agriculture, as residues from the coffee activity. The objective of this research was to evaluate the chemical composition of coffee and pine wood, as well as the physical and mechanical properties of the panels produced with the replacement of pine by waste. The OSB panels produced used the replacement of pine for coffee wood at 0 (T1), 25 (T2), 50 (T3), 75 (T4) and 100% (T5). The results show that there were significant improvements in the physical-mechanical properties and that the treatments met the minimum required by standard, with the exception of T2. Therefore, the potential of using coffee wood residue for the production of OSB panels is evidenced, since this bioproduct will avoid the incorrect destination of the residue and several other environmental problems.

References

American Society for Testing and Materials. ASTM. (1991). D 1037-91- Standard test methods for evaluating properties of wood-base fiber and particle panels: Philadelphia, EUA.

Ang, A. F., Ashaari, Z., Lee, S. H., Tahir, P. M., & Halis, R. (2019). Lignin-based copolymer adhesives for composite wood panels - A review. International Journal of Adhesion and Adhesives, 95:102408. https://doi.org/10.1016/j.ijadhadh.2019.102408.

Carvalho, A. G., Pires, M. R., Zanuncio, A. J. V., Mendes, R. F., Mori, F. A., & Mendes, L. M. (2015). Desempenho de painéis OSB com adesivos comerciais e tânicos de barbatimão. Revista Árvore, 39 (6). https://doi.org/10.1590/0100-67622015000600019.

Cortez, L. A. B., Lara, E. E., & Gómez, E. O. (2008). Biomassa para energia (primeira ed. ), Unicamp, Brasil. https://www.nipe.unicamp.br/docs/publicacoes/inte-biomassa-energia070814.pdf.

Cravo, J. C. M., Sartori, D. L., Fiorelli, J., Balieiro, J. C. C., & Savastano Junior, H. (2015). Painel aglomerado de resíduos agroindustriais. Ciências. Florestais, 25 (3). https://doi.org/10.5902/1980509819675.

European Committee for Standardization. (2006). EN 300: Oriented Strand Boards (OSB) - definitions, classification and specifications: Bruxelas.

Ferreira Leitão, V. Gottschalk, L. M. F., Ferrara, M. A., Nepomuceno, A. L., Molinari, H. B. C., & Bon, E. P. S. (2010). Biomass Residues in Brazil: Availability and Potential Uses. Waste and Biomass Valorization, 65 – 76. http://dx.doi.org/10.1007/s12649-010-9008-8.

Ferro, F. S., Icimoto, F. H., Souza, A. M., Almeida, D. H., Christoforo, A. L., & Lahr, F. A. R. (2015). Produção de painéis de partículas orientadas (OSB) com Schizolobium amazonicum e resina poliuretana à base de óleo de mamona. Scientia Florestalis, 43 (106), 313-320. http://www.bibliotecaflorestal.ufv.br/handle/123456789/15216.

Freire, A. L. F., Figueiredo, M. C. B., Rosa, M. F., Araújo Júnior, C. P. (2015). Impactos ambientais de painéis de madeira e derivados - Uma revisão de literatura. Revista ESPACIOS, 36 (10), 1-12. http://www.revistaespacios.com/a15v36n10/15361004.html.

Furtini, A. C. C., Santos, C. A., Garcia, H. V. S., Brito, F. M. S., Santos, T. P., Mendes, L. M., & Guimarães Júnior, J. B. (2021). Performance of cross laminated timber panels made of Pinus oocarpa and Coffea arabica waste. Coffee Science, e161854. https://doi.org/10.25186/.v16i.1854.

Guimarães, I. L., Veloso, M. C. R. A., Lisboa, F. J. N., Mendes, R. F., Mendes, L. M., Farrapo, C. L., & Guimarães Junior, J. B. (2019). Aproveitamento do casquilho de soja para a produção de painéis aglomerados convencionais de baixa densidade. Revista Brasileira de Ciências Agrárias, 14 (2). https://doi.org/10.5039/agraria.v14i2a5643.

Kulandaivelu, V., & Bhat, R. (2012). Mudanças nos atributos físico-químicos e biológicos de qualidade do solo após a alteração com águas residuais do processamento de café não tratadas. European Journal of Soil Biology , 50, 39 – 43. https://doi.org/10.1016/j.ejsobi.2011.11.011.

Macedo, L. B., Silva, M. R., César, A. A. S., Panzera, T. H., Christoforo, A. L., & Lahr, F. A. R. (2016). Painéis OSB de madeira Pinus sp. e adição de partículas de polipropileno biorientado (BOPP). Scientia Forestalis, 44 (112). http://dx.doi.org/10.18671/scifor.v44n112.10.

Mendes, R. F., Bortoletto Júnior, G., Almeida, N .F.; Surdi, P. G., & Barbeiro, I. N. (2013). Effect of thermal treatment on properties of OSB Panels. Wood Science and Technology, 47(2): 243-256. http://dx.doi.org/10.4067/S0718-221X2013005000012.

Mendes, R. F., César, S. A. A., Silva, M. G., Mendes, L. M., & Carvalho, A. G. (2015). Properties of OSB panels with veneer inclusion. Ciencia y tecnologia, 17(4): 843 – 856. http://dx.doi.org/10.4067/S0718-221X2015005000073.

Mendes, R. F., Mendes, L. M., Carvalho, A. G., Silva, A. F. A., & Guimarães Junior, J. B. (2012). Efeito da inclusão laminar e do tipo de adesivo abre as propriedades de painéis OSB de Pinus oocarpa. Ciência da Madeira, 3 (2), 116-127. http://dx.doi.org/10.12953/2177-6830.v03n02a05.

Modes, K. S., Ludwing, R. L., Vivian, M. A., & Stolberg, J. (2019). Wood quality of Pinus patula schltdl & cham for the pulp production. Revista Árvore, 43(2):e430207. https://doi.org/10.1590/1806-90882019000200007.

Montoya, A. C. V., Mazareli, R. C. S., Delforno, T. P., Centurion, V. B., Sakamoto, I. K., Oliveira, V. M., Silva, E. L., & Varesche, M. B. A. (2019). Hydrogen, alcohols and volatile fatty acids from the co-digestion of coffee waste (coffee pulp, husk, and processing wastewater) by applying autochthonous microorganisms. International Journal of Hydrogen Energy, 44 (39), 21434-21450. https://doi.org/10.1016/j.ijhydene.2019.06.115.

Pereira, M. A., Silva, J. R. M., Rabelo, G. F., & Andrade, A. C. A. (2014). Propriedades anatômicas, químicas e de densidade da madeira de Coffea arabica L. Cerne, 20(3):363-367. https://doi.org/10.1590/0104776020142003833.

Rios, P. D., Pereira, G. F., Vieira, H. C., Grubert, W., & Cunha, A. B., Brand, M. A. (2016). Avaliação do potencial da madeira de Pinus patula Schltdl. & Cham para a produção de painéis de madeira aglomerada. Scientia Florestalis, 44(110), 497-508. http://dx.doi.org/10.18671/scifor.v44n110.22.

Salari, A., Tabarsa, T., Khazaeian, A., & Saraeian, A. (2013). Improving some of applied properties of oriented strand board (OSB) made from underutilized low quality paulownia (Paulownia fortunie) wood employing nano-SiO2. Industrial Crops and Products, 42(1), 1-9. http://dx.doi.org/10.1016/j.indcrop.2012.05.010.

Santos, W. L. F., Silva, A. J. P., Cabral, A. A., & Mercury, J. M. R. (2014). Particleboard manufactured from Tauari (Couratari oblongilofia) wood waste using castor oil-based polyurethane resin. Materials Research, 17(3), 657-663. http://dx.doi.org/10.1590/S1516-14392014005000013.

Published

09/03/2022

How to Cite

SANTOS, C. A. dos .; FURTINI, A. C. C. .; VILLARRUEL, D. C. V. .; MIRANDA, E. H. de N. .; GOMES, D. A. C. .; MENDES, L. M. .; GUIMARÃES JÚNIOR, J. B. . Use of Pinus oocarpa and Coffea arabica wood for the production of oriented particle board (OSB). Research, Society and Development, [S. l.], v. 11, n. 3, p. e40611326795, 2022. DOI: 10.33448/rsd-v11i3.26795. Disponível em: https://rsdjournal.org/index.php/rsd/article/view/26795. Acesso em: 14 jun. 2024.

Issue

Section

Agrarian and Biological Sciences