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European Journal of Wood and Wood Products
Erschienen in: European Journal of Wood and Wood Products 1/2018

21.09.2017 | Original

Hydrothermal treatment of strand particles of pine for the improvement of OSB panels

verfasst von: Amélia Guimarães Carvalho, Antonio José Vinha Zanuncio, Benedito Rocha Vital, Angélica de Cássia Oliveira Carneiro, Carlos Miguel Simões da Silva, Gustavo Henrique Denzin Tonoli

Erschienen in: European Journal of Wood and Wood Products | Ausgabe 1/2018

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Abstract

The aim of this study was to evaluate the effect of hydrothermal treatment in strand particles of pine used for oriented strand boards (OSB) production. Strand particles of pine were hydrothermally treated at 130, 150 and 170 °C for 7 and 21 min, for the determination of chemical composition, pH, equilibrium moisture content, particles mass loss, and contact angle of these particles with phenol–formaldehyde resin. Afterwards, OSB panels were produced using 8% phenol–formaldehyde resin, with a nominal density of 0.7 g/cm3, and pressing cycle at 170 °C and 3.14 MPa for 8 min. Then, the panels were kept in climate chamber until mass stabilization for the determination of their physical and mechanical properties, and for comparison with the European standards. The hydrothermal treatment in the particles decreased carbohydrate, especially mannan, xylan and arabinans, resulting in reduced equilibrium moisture content, pH, and contact angle, and increasing buffer capacity and mass loss. In OSB panels, treated particles caused the drop in the equilibrium moisture content and reduction of the thickness swelling of the panel, without reducing the mechanical strength, making the hydrothermal treatment very attractive. The hydrothermal treatment at 170 °C for 7 min allowed the resulting OSB panel being classified into the categories 1 and 2 of the European standard, expanding its range of use.
Vorheriger Artikel Properties of multilayered sandwich panels with an agglomerated cork core for interior applications in buildings
Nächster Artikel Environmental effects on the bond at the interface between FRP and wood

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Literatur
American National Standard (1993) Mat formed wood particleboard: specification ANSI/A 208.1.1993. Gaithersburg: National Particleboards Association, p 9
Amidon TE, Wood CD, Shupe AM, Wang Y, Graves M, Liu S (2008) Biorefinery: conversion of woody biomass to chemicals, energy and materials. J Biobased Mater Bio 2:100–120CrossRef
Andrade MF, Colodette JL (2014) Dissolving pulp production from sugar cane bagasse. Ind Crops Prod 52:58–64CrossRef
Bach Q, Tran K, Skreiberg Ø, Khalil RA, Phan AN (2014) Effects of wet torrefaction on reactivity and kinetics of wood under air combustion conditions. Fuel 137:375–383CrossRef
Bakar BFA, Hiziroglu A, Tahir PM (2013) Properties of some thermally modified wood species. Mater Des 43:348–355CrossRef
Bizisks V, Andersons B, Sansonetti E, Andersone I, Militz H, Grinins J (2014) One-stage thermo-hydro treatment (THT) of hardwoods: an analysis of form stability after five soaking-drying cycles. Holzforschung 69(5):563–571
Brito JO, Silva FG, Leão MM, Almeida G (2008) Chemical composition changes in Eucalyptus and Pinus woods submitted to heat treatment. Bioresour Technol 99(18):8545–8548CrossRefPubMed
Cabral CPT, Vital BR, Della Lucia RM, Pimenta AS, Soares CPB, Carvalho AMML (2006) Propriedades de chapas tipo OSB, fabricadas com partículas acetiladas de madeiras de Eucalyptus grandis, Eucalyptus urophylla. Eucalyptus cloeziana e Pinus elliottii. (Properties of OSB manufactured with wood strands of Eucalyptus grandis, Eucalyptus urophylla, Eucalyptus cloeziana and Pinus elliottii). Revista Árvore 30(4):659–667CrossRef
Cademartori PHG, Dos Santos PSB, Serrano L, Labidi J, Gatto DA (2013) Effect of thermal treatment on physicochemical properties of Gympie messmate wood. Ind Crops Prod 45:360–366CrossRef
Del Menezzi CHS, Tomaselli I (2006) Contact thermal post-treatment of oriented strandboard to improve dimensional stability: a preliminary study. Eur J Wood Prod 64(3):212–217CrossRef
Del Menezzi CHS, Tomaselli I, Okino EYA, Teixeira DE, Santana MAE (2009) Thermal modification of consolidated oriented strand boards: effects on dimensional stability, mechanical properties, chemical composition and surface color. Eur J Wood Prod 67:383–396
EN 300 (2006) Oriented Strand Boards (OSB)—definitions, classification and specifications, European Committee For Standardization
EN 310 (1993) Wood-based panels—determination of modulus of elasticity in bending and of bending strength. European Committee For Standardization, Brussels
EN 317 (1993) Particleboards and fiberboards, determination of swelling in thickness after immersion. European Committee For Standardization, Brussels
EN 319 (1993) Particleboards and fiberboards—Determination of tensile strength perpendicular to the plane of the board. European Committee For Standardization, Brussels
EN 322 (1993) Wood-based panels—determination of moisture content. European Committee For Standardization, Brussels
EN 323 (1993) Wood-based panels—determination of density. European Committee For Standardization, Brussels
Esteves BM, Pereira HM (2009) Wood modification by heat treatment: a review. BioResources 4(1):370–404
Fengel D, Wegener G (1989) Influence of temperature. In: Wood chemistry ultrastructure reactions. Walter de Gruyter, Berlin, pp 319–344
Goldschmid O (1971) Ultraviolet spectra. In: Sarkanen KV, Ludwig CH (eds) Lignins: occurrence, formation, structure and reactions, 1 edn. John Wiley Interscience, New York, pp 241–266
Gomide JL, Demuner BJ (1986) Determinação do teor de lignina em material lenhoso: método Klason modificado. (Determination of lignin content in woody material: modified Klason method). O Papel 47(8)
Herreca R, Erdocia X, Llano-Ponte R, Labidi J (2014) Characterization of hydrothermally treated wood in relation tochanges on its chemical composition and physical properties. J Anal Appl Pyrolysis 107:256–266CrossRef
Hse CY, Geimer RL, Hsu WE, Tang RC (1994) Effect of resin type on properties of steam-press-cured flakeboards. Forest Prod J 45(1):57–62
Hsu WE, Schwald W, Schwald J, Shields JA (1988) Chemical and physical changes required for producing dimensionally stable wood-based composites. Part 1: steam pretreatment. Wood Sci Technol 22(3):281–289CrossRef
Inari GN, Petrissans M, Gerardin P (2007) Chemical reactivity of heat-treated wood. Wood Sci Technol 41(2):157–168CrossRef
Kariz M, Sernek M (2010) Bonding of heat-treated spruce with phenol-formaldehyde adhesive. J Adhes Sci Technol 24(8–10):1703–1716CrossRef
Mendes RF, Bortoletto Júnior G, Almeida NF, Surdi PG, Barbeiro ZN (2013) Effect of thermal treatment on properties of OSB panels. Wood Sci Technol 47:243–256CrossRef
TAPPI Technical Association of the Pulp and Paper Industry (2001) TAPPI test methods T 204 om-88: solvent extractives of wood and pulp. In: TAPPI Standard Method. Atlanta
Tjeerdsma BF, Militz H (2005) Chemical changes in hydrothermal treated wood: FTIR analysis of combined hydrothermal and dry heat-treated wood. Eur J Wood Prod 63(2):102–111CrossRef
Vital BR, Cabral CPT, Carneiro ACO (2012) Processo de esterificação de madeiras utilizando os anidridos maleico e ftálico para fabricação de painéis de madeira reconstituida e o produto obtido (Wood esterification process using maleic and phthalic anhydrides for the manufacture of reconstituted wood panels and the obtained product). Patent: Privilégio de Inovação. Registration number: BR1020120231808, date: 14/09/2012
Wallis A, Wearne R, Wright PJ (1996) Analytical characteristics of plantation eucalypt woods relating to kraft pulp yields. Appita J 49(5):427–432
Metadaten
Titel
Hydrothermal treatment of strand particles of pine for the improvement of OSB panels
verfasst von
Amélia Guimarães Carvalho
Antonio José Vinha Zanuncio
Benedito Rocha Vital
Angélica de Cássia Oliveira Carneiro
Carlos Miguel Simões da Silva
Gustavo Henrique Denzin Tonoli
Publikationsdatum
21.09.2017
Verlag
Springer Berlin Heidelberg
Erschienen in
European Journal of Wood and Wood Products / Ausgabe 1/2018
Print ISSN: 0018-3768
Elektronische ISSN: 1436-736X
DOI
https://doi.org/10.1007/s00107-017-1234-3

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