Boron addition to non- or low-formaldehyde cross-linking reagents to enhance biological resistance and dimensional stability of wood

Boric acid (BA) and phenylboronic acid (PBA) were added into aqueous soluti ons of non- or low-formaldehyde reagents; dimethylol dihidroxy ethyleneurea (DMDHEU), glutaraldehyde (GA) and glyoxal (GX), in order benefit from thei r potential synergistic effects in wood. Boron addition to GA improved the anti-swelling efficiency (ASE) of wood while other combinations resulted in some decreases. Ion chromatography analysis of boron leaching supported th e presumption on boron-GX complexion referred to ASE changes in the presenc e of boron. Although such complexations seemed to reduce boron leaching, bo ron appeared to decrease cross-linking efficacy of GX and to a lesser degre e of DMDHEU to the wood cell wall which was understood from declining ASE o f wood after boron addition. Boron addition to these reagents considerably improved the decay resistance against Tyromyces palustris and Coriolus vers icolor, which are the representative test fungi of brown- and white-rot in Japanese Industrial Standard (TIS) A-9201-1991, respectively. PEA had somew hat less contribution to decay resistance of GX most possibly due to chemic al complexation. GA proved superior in decay resistance to the other two re agents. Mass loss due to the Formosan termite Coptotermes formosanus attack could be reduced to a minimum with total inactivation of termites by PEA a ddition. BA retention did not suffice to impart complete termite resistance after ten cycles of severe weathering of the specimens. Thus, BA was found appropriate to be added to the used cross-linking agents in such service c onditions where decay risk is high while PEA combinations should be preferr ed if termite damage prevailes.