Protein adhesives: Alkaline hydrolysis of different crop proteins as modification for improved wood bonding performance

Wheat gluten, soy, potato and pea protein concentrates were studied to evaluate their wood bonding performance. The aim of comparing different plant proteins was to find alternatives sufficiently available in Europe with comparable bonding performance to soy. Proteins were subjected to alkaline hydrolysis under different conditions. The relation between protein molecular weight, viscosity, solids content, solubility and bonding performance of alkaline protein dispersions was studied using plant proteins, which differ in properties. Viscosity and pH change of dispersions were tracked during hydrolysis indicating protein structure alteration and size reduction. Tensile shear strength measurements were performed using beech wood substrates bonded with protein dispersions to investigate bonding performance. It was found that potato protein was able to form dispersions with a high solid content at comparably low viscosity, which is one of the key issues in protein adhesives production for particle boards. Soy and potato protein showed improved dry bonding performance after treatment with 1 M NaOH alkaline condition and 60 degrees C temperature, while for pea protein better values of tensile shear strength were obtained after the treatment under 0.1 M NaOH. Wheat protein hydrolysis also resulted in increased tensile shear strength under intensified alkaline conditions. However, the values were still lower than for soy and potato protein.

Automated summary

Different plant proteins including wheat gluten, soy, potato, and pea protein concentrates were studied for their wood bonding performance. Potato protein showed the potential to form high solid content dispersions at low viscosity, a key factor in protein adhesive production. Treatment conditions such as alkaline solution concentration and temperature had varying effects on the bonding performance of different plant proteins.