Abstract
This study aimed to evaluate the feasibility of using and influence of alternative wood species such as Cambará, Paricá, Pinus, and wood from first thinning operations on oriented strand board (OSB) physical and mechanical properties. Besides that, an alternative resin, castor oil-based polyurethane, was used to bond the particles, due to the better environmental performance when compared to other resins commonly used worldwide in OSB production. Physical properties such as the moisture content, thickness swelling, and water absorption, both after 2 and 24 hours of water immersion, and mechanical properties such as the modulus of elasticity and resistance in static bending, in major and minor axes, and internal bonding were investigated. All tests were performed according to European code EN 300:2006. Results showed the influence of wood species on physical and mechanical properties. Panels made with higher density woods such as Cambará presented better physical performance, while those made with lower density woods such as Pinus presented better mechanical properties. Besides that, strand particle geometry was also influenced on all physical and mechanical properties investigated. Therefore, the feasibility of using alternative species and wood from first thinning and with castor oil-based polyurethane resin in OSB production was verified.
Highlights
Replacement of solid wood by composite panels for structural purposes, in several sectors of building construction, is often rising
Considering Brazilian diversity of wood species, this study aimed to evaluate the feasibility of using and the influence of alternative wood species on the physical and mechanical properties of Oriented strand board (OSB)
Results and Discussion e density mean values for all experimental conditions are in accordance with the nominal density of 650 kg/m initially defined for panel production. e values obtained were 680, Properties moisture content (MC) thickness swelling after 2 hours (TS2h) TS24h water absorption after 2 hours (WA2h) WA24h
Summary
Replacement of solid wood by composite panels for structural purposes, in several sectors of building construction, is often rising. Mostly constituted by producers of medium-density particleboards (MDPs), mediumdensity fiberboards (MDFs), and oriented strand boards (OSBs), is considerably growing in recent years [4]. Brazil is among the countries with the most advanced manufacturing processes for wood panels from reforestation trees. According to data from the Brazilian Tree Industry (IBA ), in 2015, the country was responsible for the production of 8 million m of reconstituted wood panels, being the seventh largest worldwide producer [5]. Oriented strand board (OSB) is a well-known kind of panel made of strands or wafers, usually oriented, bonded with waterproof synthetic resin, and consolidated under heat and pressure [6,7,8]. Particles of the surface layer are aligned and arranged in parallel direction to the length or width of the panel, while particles of the core layer are randomly oriented or aligned generally in the perpendicular direction to the surface layer particles [9]
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