Effect of electromechanical coupling on the dynamic interaction of cracks in piezoelectric materials

The electromechanical response of a two-phases dielectric material with an active piezoelectric part is considered. The variational formulation of the problem is presented and a finite element procedure which allows to compute the coupled electro-mechanical response is proposed. A simple geometry of

The extraordinary case of increase in velocity of surface acoustic waves (SAW) caused by electrical shorting of the surface of the superstrong piezoelectric crystal potassium niobate, KNbO3, is numerically found. The explanation of this effect is based on considering SAWs as coupled Rayleigh and Ble

The problem of propagating crack characterization is examined for a case of a stochastic brittle medium. Crack-damage interaction and its influence on fracture kinetics are accounted for by means of continuum damage mechanics and stochastic values of stress intensity factor. The two-dimensional prob

The dependence of the electromechanicai coupling coefficient (EMCC) on the size and position of the electrodes on the faces of the bodies is investigated using the examples of a circular piezoceramic plate and a cylindrical piezoceramic shell executing harmonic oscillations. It is shown that the EMC

In this paper, the behavior of four parallel symmetric cracks in a piezoelectric material under anti-plane shear loading is studied by the Schmidt method for the permeable crack surface boundary conditions. By use of the Fourier transform, the problem can be solved with the help of two pairs of trip