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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 884-885Particleboard Produced with Sawmill Waste of...

Particleboard Produced with Sawmill Waste of Different Wood Species

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Abstract:

This study aimed to investigate physical performance of particleboards produced with waste from sawmills, containing different wood species, and two adhesives: urea-formaldehyde (UF) based resin and castor-oil (PU) based bi-component polyurethane resin. Panels were produced with nominal density 0.8gcm^-3; pressing temperature 110°C; pressing time 10 min; specific pressure 5 MPa. Water absorption (2 and 24h); thickness swelling (2 and 24h); density; and moisture content were investigated. Results confirmed that the produced panels presented compatible physical properties in comparison with other researches referred in literature, proving the feasibility of inputs employed. Panels produced PU showed better performance than those produced with UF.

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Periodical:

Advanced Materials Research (Volumes 884-885)

Pages:

689-693

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.884-885.689

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Online since:

January 2014

Authors:

Luciane Simal Alves, Sérgio Augusto Mello da Silva, Maximiliano dos Anjos Azambuja, Luciano Donizeti Varanda, Andre Luis Christofóro, Francisco Antonio Rocco Lahr

Keywords:

Physical Properties, Residues, Timber

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© 2014 Trans Tech Publications Ltd. All Rights Reserved

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[1] G.S. Barbosa. O desafio do desenvolvimento sustentável. Rev. Visão, 4. ed., Vol. 1(4), (2008).

[2] S. Iwakiri. Painéis de madeira reconstituída. (FUPEF, Curitiba, Brazil, 2005).

[3] L.D. Varanda. Produção e avaliação do desempenho de painéis de partículas de Eucalyptus grandis confeccionados com adição de casca de aveia. Master thesis, São Paulo Universitys, Brazil (2012).

DOI: 10.11606/d.88.2012.tde-09082012-165028

[4] S.A.M. Silva, A.L. Christoforo, T.H. Panzera, D.H. Almeida, A.A.S. Segantini and F.A. Rocco Lahr. Particleboard manufactured with leucena wood and polyurethane resin castor oil based. Cienc. Rural, Vol. 43(8), (2013), pp.1399-1404.

DOI: 10.1590/s0103-84782013005000099

[5] S.A.M. Silva, A.L. Christoforo, S.L.M.R. Filho, L.D. Varanda and F.A. Rocco Lahr. Particleboard Manufactured with Bicomponent Polyurethane Resin Base on Castor Oil. Int. J. Compos. Mater., Vol. 2(6), (2012), pp.115-118.

DOI: 10.5923/j.cmaterials.20120206.01

[6] M.F. Nascimento, F.A. Rocco Lahr, M.S. Berolini and A.M. Souza. Viabilidade do emprego de Eucalyptus tratado com CCA e CCB na produção de painéis particulados de alta densidade. In: F.A. Rocco Lahr and A.L. Christoforo (Org. ). Painéis de partículas de madeira e de materiais lignocelulósicos, Capítulo 3, pp.57-89, São Carlos, EESC/USP (2013).

DOI: 10.1590/s0100-67622014000200014

[7] S. Iwakiri, A. Cunha, C.E. Albuquerque, E. Gorniak and L.M. Mendes. Eucalypt's wood residues deriving from sawmills for particleboard manufacturing. Sci. Agr., Vol. 1(1-2), (2000), pp.23-28.

[8] B.C. Feitosa. Aproveitamento dos resíduos de madeira no Pará. Remade, ed. 114 (2008). Information on: http: /www. remade. com. br/br/revistadamadeira_capa. php?edicao=114, Acess in 10/11/(2013).

[9] J.M.H. Jesus. Estudo do adesivo poliuretano à base de mamona em madeira laminada colada (MLC). Ph.D. thesis, University of São Paulo, São Carlos, Brazil (2000).

DOI: 10.11606/t.88.2016.tde-16092016-161024

[10] C.I. Campos. Produção e caracterização físico-mecânica de MDF a partir de fibras de madeira de reflorestamento e adesivos alternativos em diferentes teores. Master thesis, University of São Paulo, São Carlos, Brazil (2005).

[11] S.A.M. Silva. Aproveitamento de resíduos de madeiras tropicais de baixa e média densidade para a produção de chapas de partículas homogêneas, empregando-se resina poliuretana derivada de óleo de mamona. Postdoctoral thesis, University of São Paulo, São Carlos, Brazil (2007).

DOI: 10.11606/d.88.2011.tde-26042011-121731

[12] M.S. Bertolini, F.A. Rocco Lahr, M.F. Nascimento and J.A.M. Agnelli. Accelerated artificial aging of particleboards from residues of CCB treated Pinus sp. and castor oil resin. Mater. Res., Vol. 16(2), (2013), pp.293-303.

DOI: 10.1590/s1516-14392013005000003

[13] SILVA, S.A.M. Silva; A.L. Christoforo; T.H. Panzera; D.H. Almeida; A.A.S. Segantini; F.A. Rocco Lahr. Painéis de partículas de madeira leucena e resina poliuretana derivada de óleo de mamona. Ciência Rural, v. 43, pp.1399-1404, (2013).

DOI: 10.1590/s0103-84782013005000099

[14] D.A.L. Silva, F.A.R. Lahr, R.P. Gracia, F.M.C.S. Freire and A.R. Ometto. Life cycle assessment of medium density particleboard (MDP) produced in Brazil. Int. J. Life Cycle Ass., Vol. 18, (2013), pp.1404-1411.

DOI: 10.1007/s11367-013-0583-3

[15] S.F. Poleto, L.D. Varanda, M.F. Nascimento, A.L. Christoforo and F.A. Rocco Lahr. Evaluation of the Mechanical Properties of Particleboards Manufactured with Waste of Pinus elliottii Tree Pruning. Int. J. Compos. Mater., Vol. 3(3), (2013).

[16] M.S. Bertolini, M.F. Nascimento, K. Blecha and F.A.R. Lahr. Eco-panels Based on Wastes from Urban Trees and Castor Oil Polyurethane Resin. Int. J. Agric. Forest., Vol. 3(1), (2013), pp.12-15.

[17] Brazilian Association of Technical Standards. Painéis de Madeira Aglomerada parte 1: Definições; parte 2: Requisitos; parte 3: Métodos de ensaio., ABNT NBR 14810, Rio de Janeiro, Brazil (2006).

[18] R. Trianoski. Avaliação do potencial de espécies florestais alternativas, de rápido crescimento, para produção de painéis de madeira aglomerada. Master thesis, University Federal of Paraná, Brazil (2010).

DOI: 10.18671/scifor.v44n110.22

[19] A.P.M. Galvão. Estimativas da umidade de equilíbrio da madeira em diferentes cidades do Brasil. IPEF, N. 11, (1975), pp.53-65.

[20] European Committee for Standardization. EN 317: Particleboards and fiberboards - Determination of swelling in thickness after immersion in water, Bruxelas (1993).

[21] Commercial Standard – CS 236-66. Material formed wood particleboard, S1, (1968).