Mechanics of adhesive failure. I

Abstract

The mechanics of adhesive failure have been investigated by using model adhesive joints between a cross-linked amorphous rubber and rigid polymeric substrates. The adhesive failure energy, 0, was determined over a wide range of temperatures and rates of crack propagation. For any given rubber-substrate joint the results yield a single m aster curve w hen reduced to a reference temperature by means of the Williams-Landel-Ferry equation. It is shown that 6 is the sum of two components: the energy dissipated viscoelastically within the rubber at the crack tip and the ‘intrinsic ’ adhesive failure energy 0₀. The value of the former is proportional to 0₀, so that 0 can also be represented as the product of 0₀ and a function of rate and temperature. The prameter 0₀ is governed by the surface properties and compositions of the materials forming the joint. When pure interfacial failure occurs, 0₀has a value in close agreement with the thermodynamic ‘work of ad hesion’ determined independently.