Wool/Polymer Interactions

Abstract

Two methods were investigated for measuring the adhesion between single Lincoln fibers and a polyurethane elastomer. The importance of viscoelastic properties on the measured adhesive force was shown at low speeds of testing where the wool/polymer adhesive force increased with speed, parallel to the tearing energy of the elastomer. Estimates of the surface component of adhesion, θ₀, were consistent with the conclusion that θ₀» W₀, where Wo is the calculated wool/polymer thermodynamic work of adhesion, assuming only van der Waals' bonding across the interface. Covalent bonding at the wool/polymer interface and/or me chanical interlocking of polymer under the scale edges could account for the large values of θ ₀ as well as the mixed-mode (i.e. interfacial and cohesive) failure observed from scanning-electron-microscope studies.