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Erschienen in:

01.03.2013 | Original

Effect of thermal treatment on properties of OSB panels

verfasst von: Rafael Farinassi Mendes, Geraldo Bortoletto Júnior, Natalie Ferreira de Almeida, Paula Gabriella Surdi, Isabela Najm Barbeiro

Erschienen in: Wood Science and Technology | Ausgabe 2/2013

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Abstract

The main objective of this study was to evaluate the effect of thermal treatment of strand particles (pre-treatment) and panels (post-treatment) on the physical and mechanical properties of OSB. The experimental design consisted of five treatments, with the evaluation of the following: two particle treatment temperatures (473.15 and 513.15 K) for a period of 60 min, thermal post-treatment of the panels produced with and without application of wax emulsion at 493.15 K for a period of 12 min, and panels without heat treatment (control). For each treatment, three panels were produced with adhesives based on phenol formaldehyde. The pressing cycle of the panels was at a pressure of 3.51 MPa, 433.15 K and 8 min. Through the analysis of the results, it was possible to draw the following conclusions: the panels produced with the particles heat-treated at 513.15 K showed the best dimensional stability. The thermal post-treatment caused a significant improvement in some of the physical properties of the panels without compromising the mechanical properties. The thermal pre-treatment provided a more pronounced effect on the panel properties than the thermal post-treatment providing improved physical properties and lower mechanical properties.

Vorheriger Artikel Moisture-induced stresses in glulam cross sections during wetting exposures

Nächster Artikel J-integral evaluation in cracked wood specimen using the mark tracking method

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ASTM D-1037 (2006) Standard methods of evaluating properties of wood-base fiber and particles materials. American Society for Testing and Materials Annual book of ASTM standard. Annual Book of ASTM Standards, Philadelphia, pp 1–30

Ayrilmis N, Laufenberg TL, Winandy JE (2009) Dimensional stability and creep behavior of heat-treated exterior medium density fiberboard. Eur J Wood Prod 67:287–295CrossRef

Brito JO, Garcia JN, Bortoletto G Jr, Pessoa AMC, Silva PHM (2006) The density and shrinkage behavior of Eucalyptus grandis wood submitted to different temperatures of thermoretification. Cerne Lavras 12(2):182–188

Brito JO, Silva FG, Leao MM, Almeida G (2008) Chemical composition changes in eucalyptus and pinus woods submitted to heat treatment. Bioresour Technol 99:8545–8548PubMedCrossRef

Chang HT, Chang ST (2003) Improvements in dimensional stability and lightfastness of wood by butyrylation using microwave heating. J Wood Sci Tokyo 49(5):455–460CrossRef

Chen Y, Choong ET, Barnes HM (1995) Effect of selected water—soluble bulking chemicals on moisture diffusion and dimensional stability of wood. Forest Prod J 45(5):84–90

CSA 0437–0 (1993) OSB and waferboard. Canadian Standards Association, Ontario, 18 p

Del Menezzi CHS (2004) Dimensional stabilization by thermal treatment and its effects on properties of oriented strand boards (OSB). Thesis (Doctorate in Forestry Engineering)—Federal University of Paraná, Curitiba, p 226

Del Menezzi CHS, Tomaselli I (2006) Contact thermal post-treatment of oriented strand board to improve dimensional stability: a preliminary study. Holz Roh Werkst 64:212–217CrossRef

DIN 52362 (1982) Testing of wood chipboards bending test, determination of bending strength. DIN, Berlin p 40

Gohar P, Guyonet R (1998) Development of wood rectification process at the industrial stage. In: Proceedings of international symposium on wood preservation, 4, Cannes, pp 173–178

Goroyias GJ, Hale MDC (2002) Heat treatment of wood strands for OSB production: effect on the mechanical properties, water absorption and dimensional stability. Intern Res Group Wood Prot, Cardiff, p 1

Hill CAS, Mallon S (1999) The chemical modification of Scots pine with succinic anhydride or octenyl succinic anhydride. I. Dimensional stabilization. Holzforschung 52(4):427–433CrossRef

Hsu WE, Schwald W, Shields JA (1989) Chemical and physical changes required for producing dimensionally stable wood—based composite. Part 2: heat post-treatment. Wood Sci Technol 23:281–288CrossRef

Irle M (2009) Technically speaking. Wood Based Panels, June/July 2009. http://www.wbpionline.com/Technicallyspeaking. Accessed on 15 August 2009

Iwakiri S (2005) Reconstituted wood panels. FUPEF, Curitiba, p 245

Iwakiri S, Saldanha LK, Albuquerque CEC, Mendes LM (2009) Effects of particles thickness and veneer reinforced layer in the properties of oriented strand boards-0SB. Cerne Lavras 15(1):116–122

Kelly MW (1977) A critical literature review of relationships between processing parameters and physical properties of particleboards. US Forest Production Laboratory, Madison, p 66. (General Technical Report, FPL-10)

Kim G-H, Yun K-E, Kim J–J (1998) Effect of heat treatment on the decay resistance and the bending properties of radiata pine sapwood. Mater Org 32(2):101–108

Maloney TM (1993) Modern particleboard and dry-process fiberboard manufacturing, 2nd edn. M. Freeman, San Francisco, p 689

Mendes LM, Iwakari S, Matos JLM, Keinert S Jr, Saldanha LK (2003) Effects of board density and layers composition on the physical and mechanical properties of OSB manufactured from clones of Eucalyptus spp. Floresta e Ambiente Rio de Janeiro 10(1):1–17

Moslemi AA (1974) Particleboard, vol 2. Southern Illinois University Press, London

Okino EYA, Teixeira DE, del Menezzi CHS (2007) Post-thermal treatment of oriented strandboard (OSB) made from cypress (Cupressus glauca Lam.). Maderas Ciencia y Tecnología, Concepción 9(3):199–210

Paul W, Ohlmeyer M, Leithoff H, Boonstra MJ, Pizzi A (2006) Optimising the properties of OSB by a one-step heat pre-treatment process. Holz Roh Werkst 64:227–234CrossRef

Paul W, Ohlmeyer M, Leithoff H (2007) Thermal modification of OSB-strands by a one step heat pre-treatment—influence of temperature on weight loss, hygroscopicity and improved fungal resistance. Holz Roh Werkst 65:57–63CrossRef

Paz JJ, Sanabria EO (2000) Dimensional stabilization of Aspidosperma quebracho blancowith polyethylene glycol. In: Proceedings of IUFRO WORLD CONGRESS, 21, Kuala Lumpur, 2000, vol 3. IUFRO, Kuala lumpur, p 236

Rowell RM, Youngs RL (1981) Dimensional stabilization of wood in use. US Forest Service, Madison. (For. Prod. Lab. Rep., 0243)

Sernek M, Kamke AF, Glasser WG (2004) Comparative analysis of inactivated wood surface. Holzforschung 58:22–31CrossRef

Tjeerdsma BF, Militz H (2005) Chemical changes in hydrothermal treated wood: FTIR analysis of combined hydrothermal and dry heat-treated wood. Holz Roh Werkst 63:102–111CrossRef

Tjeerdsma BF, Boonstra M, Pizzi A, Tekely P, Militz H (1998) Characterization of thermally modified wood: molecular reasons for wood performance improvement. Holz Roh Werkst 56:149–153CrossRef

Winandy JE, Krzysik AM (2007) Thermal degradation of wood fibers during hot-pressing of MDF composites: part I. relative effects and benefits of thermal exposure. Wood Fiber Sci 39(3):450–461

Winistorfer PM, Xu W, Helton CM (1996) Influence of three wax formulations and three application rates on thickness swell performance of southern pine flakeboards. Forest Prod J 46(3):63–67

Titel: Effect of thermal treatment on properties of OSB panels
verfasst von: Rafael Farinassi Mendes
Geraldo Bortoletto Júnior
Natalie Ferreira de Almeida
Paula Gabriella Surdi
Isabela Najm Barbeiro
Publikationsdatum: 01.03.2013
Verlag: Springer-Verlag
Erschienen in: Wood Science and Technology / Ausgabe 2/2013
Print ISSN: 0043-7719
Elektronische ISSN: 1432-5225
DOI: https://doi.org/10.1007/s00226-012-0494-7

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