Adhesive contact and kinetics of adherence of a rigid conical punch on an elastic half-space (natural rubber)

The equilibrium contact of a rigid conical punch, applied against the fiat and smooth surface of a soft elastomer sample (unfilled natural rubber), is studied with the help of fracture mechanics concepts which can be easily introduced in this class of problems by using Sneddon's solution (Int. J. Eng. Sci. 3 (1965) p.47) of Boussinesq's problem extended to all axisymmetric adhesive punches with a convex profile as a cone. The kinetics of adherence is measured when an imposed tensile force is applied in order to disturb the size of the contact area. Variations of the strain energy release rate G and of the associated dissipation function Phi = (G - w)/w, where w is the Dupre energy of adhesion, are studied as a function of the crack propagation speed V at the interface between a cone made of plexiglass (PMMA) and the rubber sample (the limit of the contact is considered as a crack tip). As expected, a master curve Phi(V) is found, confirming the variation of Phi as the 0.55 power function of V, as recently established by Barquins et al. in adherence of flat-ended spheres in pull-off/push-on tests, adherence and rolling of cylinders experiments and rebound of balls tests, with the same elastic rubber-like material. (C) 2002 Elsevier Science Ltd. All rights reserved.