Re-polarization of elastic waves at a frictional contact interface—II. Incidence of a P or SV wave

This is Part II of a two!part paper which analyses the re!polarization of elastic waves at a frictional contact interface between two solids[ The re!polarization of SH waves was solved in Part I by the use of the Fourier analysis[ Here\ in Part II\ we consider the re!polarization of P or SV waves[ It is assumed that the two solids are pressed together and\ at the same time\ loaded by anti!plane and in!plane shearing traction[ If the incident wave is su.ciently strong\ localized separation and slip may take place at the interface[ As a result\ the incident in!plane wave is re!polarized at the interface so that the anti!plane waves "SH waves# are induced[ Using the method similar to that of Part I and considering the boundary conditions involving separation and slip\ we manage to reduce the problem to a set of algebraic equations coupled with simple integral equations[ An iterative method is developed based on the solution to the perfectly bonded interface[ The locations and sizes of the separation and slip zones\ the interface traction\ the slip velocities\ the global sliding velocities and the energy dissipation and partition are displayed for the case of two identical materials[ It is found that the separation zones and the gaps are independent of the induced waves[ Þ 0888 Elsevier Science Ltd[ All rights reserved[