Development of particleboards from cotton gin wastes and urea formaldehyde resin

Authors

DOI:

https://doi.org/10.46421/enarc.v8i00.3097

Keywords:

Cotton gin wastes, Urea formaldehyde resin, Particleboards, Single-layer boards, Triple-layer boards

Abstract

This study analyzes the feasibility of producing particleboards using cotton ginning residues generated in ginning plants in northeastern Argentina. These residues, which represent 40% of cotton harvested in the country, offer a cheap raw material for the production of particleboards meeting international standards. Single-layer and triple-layer panels were evaluated, incorporating two different types of particle sizes distribution for the residue and urea-formaldehyde resin contents between 11.9 and 19.3 %. Density, flexural strength and water resistance were tested. There was better behavior in the triple layer panels, attaining greater flexural strengh and water resistance even with lower resin contents. These panels could offer a low-cost alternative for application in furniture and civil construction, reducing the environmental impact of cotton production.

Author Biographies

Luciano Massons, CECOVI - Universidad Tecnológica Nacional Facultad Regional Santa Fe

Estudiante de ingeniería civil. Ayudante de cátedra Resistencia de materiales UTN FRSF. Investigador CECOVI - UTN FRSF. 

Florencia A Benítez , Universidad Tecnológica Nacional Facultad Regional Santa Fe

Estudiante de ingeniería civil en UTN FRSF e investigadora CECOVI 

Regina Rosario Piccoli , Universidad Tecnológica Nacional Facultad Regional Santa Fe

Estudiante de ingeniería civil en UTN FRSF e investigadora CECOVI 

María Fernanda Carrasco, Universidad Tecnológica Nacional Facultad Regional Santa Fe

Ingeniera civil UTN FRSF, Docente e investigadora CECOVI 

References

ALMA, M.H., KALAYCIOGLU, H., BEKTAS, I., TUTUS, A. Properties of cotton carpel-based particleboards. Industrial Crops and Products 22 141–149. 2005.

AMERICAN NATIONAL STANDARDS INSTITUTE. ANSI 208.1: Particleboard. 1999

BARBIRATO, G.; FIORELLI, J.; BARRERO, N.G.; AGNOLON PALLONE, E.M.J.; ROCCO LAHR, F. A.; CHRISTOFORO, A.L.; SAVASTANO JR. H. Painel aglomerado híbrido de casca de amendoim reforçado com partículas de madeira Itaúba. Ciência Florestal, 24(3), 685-697. 2014.

BARROS FILHO; R.M., MENDES, L.M., MONTEIRO NOVACK; K., OLIVEIRA APRELINI, L., BOTARO, V.R. Hybrid chipboard panels based on sugarcane bagasse, urea formaldehyde and melamine formaldehyde resin. Industrial Crops and Products, 33, 369–373. 2011.

CONTRERAS M. W., OWEN DE C. M. E., GARAY J. D. A., CONTRERAS M. Y. Elaboración de tableros aglomerados de partículas de caña brava (Gyneriumsagittatum) y adhesivo urea-formaldehído. Rev. Forest. Venez. 43 (2), 129-135. 1999.

COSEREANU, C.; BRENCI, L.; ZELENIUC, O.; FOTIN, A. Effect of particle size and geometry on the performance of single-layer and three-layer particleboard made from sunflower seed husks. BioResources 10(1),1127-1136. 2015. https://doi.org/10.1016/10.15376/biores.10.1.1127-1136

CRAVZOV, A. L., CHOMICZAK, S., DALLA FONTANA, L., MARINICH, J. Evaluación del uso de plaguicidas en cultivos de algodón. In: VI Reunión de Comunicaciones Científicas y Tecnológicas de la UNNE, Resistencia, Chaco (Argentina), 2000.

CROSSAN, A., SANCHEZ BAYO, F., KENNEDY, I., BODNARUK, K. Risk of pesticide contamination in cotton seed and livestock. The Australian cotton grower, 27 (1), 54-56. 2006.

CHOUPANI CHAYDARREH, K., LIN, X., GUAN, L., CHUANSHUANG, H. Interaction between particle size and mixing ratio on porosity and properties of tea oil camellia (Camellia oleifera Abel.) shells-based particleboard. Journal of Wood Science 68(43). 2022. https://doi.org/10.1186/s10086-022-02052-3.

GRANERO, V.; GATANI, M.; MEDINA, J. C.; RUIZ, A.; FIORELLI, J., KREIKER, J., LERDA, M. J. Determinación de la influencia del tamaño y forma de partículas de cáscaras de maní en paneles aglomerados. Revista Quebracho Vol. 21(1,2),67-80. 2013.

HAQUE, A.N.M.A, REMADEVI, R. NAEBE, M. A review on cotton gin trash: Sustainable commodity for material fabrication. Journal of Cleaner Production 281, 125300. 2021.

GÜLLER, C., CÖPÜR, Y., TASCIOGLU, C. The manufacture of particleboards using mixture of peanut hull (Arachis hypoqaea L.) and European Black pine (Pinus nigra Arnold) wood chips. Bioresource Technology 99, 2893–2897. 2008.

GARCÍA-ORTUÑO, T., ANDRÉU-RODRÍGUEZ, J., FERRÁNDEZ-GARCÍA, M.T., FERRÁNDEZ-VILLENA, M., FERRÁNDEZ-GARCÍA, C.E. Evaluation of the physical and mechanical properties of particleboard made from giant reed (Arundo Donax L.). 2011. BioResources 6(1), 477-486.

GATANI, M.P.; FIORELLI, J.; MEDINA, J.C.; ARGUELO, R.; RUIZ, A.; NASCIMENTO, M.F.; SAVASTANO JR., H. Viabilidade técnica de produção e propriedades de painéis de partículas de casca de amendoim. 2013. Revista Matéria, 18 (2), 1286-1293.

GÜLLER, C.; OZEN, R. Some properties of particleboards made from cotton stalks (Gossypium hirsitum L.). 2004. HolzRohWerkst 62, 40–43.

KHANJANZADEH, H., BAHMANI, A.A., RAFIGHI, A, TABARSA, T. Utilization of bio-waste cotton (Gossypium hirsutum L.) stalks and underutilized paulownia (paulownia fortunie) in wood-based composite particleboard. African Journal of Biotechnology, 11(31), 8045-8050. 2012.

IRAM 9705: Tableros derivados de la madera. Determinación de la densidad. 2001.

IRAM 9706. Tableros derivados de la madera. Determinación del módulo de elasticidad en flexión y de la resistencia a la flexión. 2001.

IRAM 9720. Tableros de partículas y tableros de fibras. Determinación del hinchamiento del espesor después de inmersión en agua. 1999

IRAM 9723: 2012 - Tableros de partículas. Requisitos.

PANYAKAEW, S., FOTIOS, S. New thermal insulation boards made from coconut husk and bagasse. 2011. Energy and Buildings, 43, 1732–1739.

MINISTERIO DE AGRICULTURA, GANADERÍA Y PESCA DE LA NACIÓN. Situación del algodón en la Argenti-na - Informe campaña 19/20 - Comité Consultivo Internacional del Algodón. https://icac.org/Content/Event Docu-ments/PdfFilesf65365a1_cdae_46a2_ba9b_45d0295f4137/Argentina-2020_spanish.pdf.

MINISTERIO DE AGRICULTURA, GANADERÍA Y PESCA DE LA NACIÓN. Informe sobre situación actual y perspectivas de la producción algodonera Argentina. 69° Reunión de CCIA (Comité Consultivo In-ternacional del Algodón); Lubbock, Texas (EE. UU.), 2016.

RAHMAN, W.M.N.W.A., Yatim, A.A.M., Zlan, A.A.M., Kasim, J., Yunus, N.Y.M. Resin contente & particle size. BioResources 14 (3), 6079-6087. 2019.

ROFII, M.N.; YUMIGETA, S.; SUZUKI, S.; PRAYITNO, T.A. Mechanical Properties of Three-Layered Particleboards Made from Different Wood Species. Actas de 3rd International Symposium of Indonesian Wood Research Society, Aruna Senggigi, Lombok, Indonesia, 152-161. 2021.

VANOLI SCATOLINO, M.; DE PAULA PROTÁSIO, T.; SOUZA, V. M.; LAÍS FARRAPO, C.; GUIMARÃES JUNIOR, J. B.; SORATTO, D.; FARINASSI MENDES, T.; MARIN MENDES L. Does the Addition of Cotton Wastes Affect the Properties of Particleboards? Floresta e Ambiente; 26(2): e20170300. 2019.

XIANJUN, L., ZHIYONG, C., WINANDY, J.E., BASTA, A.H. Selected properties of particleboard panels manufactured from rice straws of different geometries. Bioresource Technology, 101, 4662–4666. 2010.

Published

2023-10-25

How to Cite

Massons, L., Benítez , F. A., Piccoli , R. R. ., & Carrasco, M. F. . (2023). Development of particleboards from cotton gin wastes and urea formaldehyde resin. ENCONTRO NACIONAL DE APROVEITAMENTO DE RESÍDUOS NA CONSTRUÇÃO, 8(00), 1–7. https://doi.org/10.46421/enarc.v8i00.3097

Similar Articles

1 2 3 4 5 6 7 8 9 10 > >> 

You may also start an advanced similarity search for this article.