Survey of selected adhesive bonding properties of nine European softwood and hardwood species

Abstract in deutscher Sprache nicht verf\ufcgbarDue to the increasing interest in applying a wider range of wood species for structural purposes, nine European softwood and hardwood species (ash, beech, birch, hornbeam, larch, oak, poplar, black locust and spruce) were assessed for their ability to be bonded with three different commercial adhesive systems (melamine\u2013urea\u2013formaldehyde, one-component polyurethane and phenol\u2013resorcinol\u2013formaldehyde). Tensile shear strength and delamination tests were conducted according to European standards, for all tests including the corresponding wood species as adhesive joints and as a solid wood reference. When tested in dry condition, the threshold of solid wood tensile shear strength was reached by all species\u2013adhesive combinations. By contrast, testing in wet condition revealed distinct performance reductions for certain combinations. This trend was confirmed by delamination testing. Overall, the results indicate that extrapolation of test results achieved with a specific wood species (as recommended in the current standard for lap-joint tests) towards other species is highly problematic and has to be done with caution

Polyurethane Coatings Based on Chemically Unmodified Fractionated Lignin

New lignin-based thermoset polyurethane (PU) coatings with high lignin content are presented in this work. These materials were obtained by extracting a sol fraction from a raw kraft lignin sample with the bioderived solvent 2-methyltetrahydrofuran (MeTHF), and subsequently directly cross-linking the MeTHF-soluble lignin fraction with a toluene diisocyanate (TDI)-based polyisocyanate at different weight ratios. A thorough characterization of the PU materials highlighted their improved thermal stability, better film forming ability and higher hydrophobic character compared with the un-cross-linked lignin precursor. Additionally, force–distance curve measurements by atomic force microscopy were employed to determine the elastic modulus of the PU materials. Finally, the lignin-based PU materials were found to exhibit high adhesion on different substrates, including glass, wood and metals. The results of this study demonstrate that the direct reaction of chemically unmodified fractionated lignin with polyisocyanates represents an interesting strategy for the development of lignin-based thermoset PU systems that may find application in the field of high-performance biobased coatings and adhesives