Fast Pyrolysis Bio-Oil-Based Epoxy as an Adhesive in Oriented Strand Board Production

The objectives of this study were to utilize bio-oil-based epoxy resin in oriented strand board (OSB) production and investigate the effect of bio-oil substitution in epoxy resin as an adhesive for OSB production. Bio-oil was produced by the fast pyrolysis (FP) process using southern yellow pine (Pinus spp.). Bio-oil-based epoxy resin was synthesized by the modification of epoxy resin with FP bio-oil at various substitution levels. Acetone extraction using a Soxhlet process indicated a superior cured reaction of bio-oil and epoxy resin at 20% bio-oil substitution. FTIR spectra corroborated the Soxhlet extraction with the removal of the epoxide peak signature within the cross-linked polymer. Images from the scanning electron microscopy suggested bulk phase homogeneity. OSB panels were tested according to ASTM D1037-12. The modulus of rupture (MOR), modulus of elasticity (MOE), internal bond strength, and water resistance (thickness swell and water absorption) properties of the OSB panels were feasible at bio-oil substitution up to 30% in the epoxy resin system.

Automated summary

This study investigated the use of bio-oil-based epoxy resin as an adhesive for oriented strand board (OSB) production. The results showed that the bio-oil and epoxy resin had a superior reaction at 20% bio-oil substitution. The scanning electron microscopy images indicated that the adhesive had bulk phase homogeneity. The mechanical properties and water resistance of the OSB panels were feasible up to 30% bio-oil substitution.