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Wood Science and Technology
Erschienen in: Wood Science and Technology 3/2008

01.03.2008 | Original

Effect of mat structure on modulus of elasticity of oriented strandboard

verfasst von: Siguo Chen, Luming Fang, Xiaohong Liu, Robert Wellwood

Erschienen in: Wood Science and Technology | Ausgabe 3/2008

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Abstract

A model to predict bending stiffness of oriented strandboard (OSB) was tested with pilot plant experimental data. The experimental procedure developed in this study is unique in that it allows the model to be tested for extensive vertical configurations of strand angle distribution. After validation, the model was used to simulate a typical three-layer cross-oriented OSB panel with a vertical density profile and strand angle distribution measured on industrial panels. Analysis of the simulated vertical distribution of modulus of elasticity (MOE) indicated that the layers near the panel surfaces contributed much more to the effective parallel panel MOE than those close to the panel thickness center, with 80% of parallel MOE coming from the top 41% of weight and 32% of thickness. The effectiveness of methods to increase parallel bending stiffness through improving mat structure was evaluated. Increasing face/core weight ratio from 54/46 to 66/34 resulted in a 3.7% increase in simulated parallel MOE. Alignment of strands in face layers was identified having a greater potential to increase parallel MOE. Simulations with three improved strand angle distributions showed gains of 5.7, 12.0 and 19.8% in parallel MOE compared with a typical strand angle distribution of industrial OSB panels.
Vorheriger Artikel Method for evaluating the influence of wood machining conditions on the objective characterization and subjective perception of a finished surface
Nächster Artikel Fractional isolation and structural characterization of mild ball-milled lignin in high yield and purity from Eucommia ulmoides Oliv

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Literatur
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Forest Products Laboratory (1999) Wood handbook––wood as an engineering material. Forest Products Laboratory, Madison, pp 4–29
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Grant D (1997) Effets De La Distribution De L’orientation Des Particules De Couches Extérieures Sur Les Propriétés ∼Mécaniques Des Panneaux De Particules Orientées. MSc Thesis, LAVAL University, Canada
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Moses DM, Prion HGL, Li H, Boehner W (2003) Composite behavior of laminated strand lumber. Wood Sci Technol 37:59–77CrossRef
Painter GJ, Budman H, Pritzker M (2006) Prediction of oriented strandboard properties from mat formation and compression operating conditions. Part 2: MOE prediction and process optimization. Wood Sci Technol 40:291–307CrossRef
Saliklis EP, Falk RH (2000) Correlating off-axis tension tests to shear modulus of wood-based panels. J Struct Engrg ASCE 126:621–625CrossRef
Xu W (1999) Influence of vertical density distribution on bending modulus of elasticity of wood composite panels: a theoretical consideration. Wood Fiber Sci 31:277–282
Xu W (2000) Influence of percent alignment and shelling ratio on modulus of elasticity of oriented strandboard: A model investigation. Forest Prod J 50(10):43–47
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Metadaten
Titel
Effect of mat structure on modulus of elasticity of oriented strandboard
verfasst von
Siguo Chen
Luming Fang
Xiaohong Liu
Robert Wellwood
Publikationsdatum
01.03.2008
Verlag
Springer-Verlag
Erschienen in
Wood Science and Technology / Ausgabe 3/2008
Print ISSN: 0043-7719
Elektronische ISSN: 1432-5225
DOI
https://doi.org/10.1007/s00226-007-0167-0

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