Linear interface crack under harmonic shear: Effects of crack's faces closure and friction

Abstract

The linear crack between two dissimilar elastic isotropic half-spaces under normal harmonic shear loading is considered taking the crack's faces contact interaction and friction into account. The problem is solved by the boundary integral equations method and the components of the solution are represented by the Fourier series. The numerical convergence of the method is analysed. The results are validated through the comparison with the classical model solutions obtained for the static problems with and without friction. The effects of material properties and values of the friction coefficient on the distribution of the stress intensity factors (normal opening and transverse shear modes) are presented and analysed.