Free Wave Propagation in Rotationally Restrained Periodic Plates

A suitably chosen deflection function is used to analyze the free vibration of rotationally restrained infinite periodic beams on transversely rigid supports by the wave approach. The assumed complex modes of wave motion which satisfy the wave boundary conditions are used in a Galerkin type of analy

A method is presented for computing propagation constants of longitudinal free wave propagation in a longitudinally prismatic plate assembly which is supported or transversely stiffened at longitudinally periodic intervals. The method combines a special complex Fourier series approach with the Wittr

An asymptotic approximation is obtained for the dispersion relation of flexural waves propagating in an infinite, flat plate, with material properties periodic in one direction. The approximation assumes that the wavelength is long compared with the length of the unit period, but makes no assumption

The h-p version of the finite element method is used to study flexural wave motion in a periodic beam with identical, but non-symmetric, periods. The convergence behaviour of the h-p method is benchmark validated against an exact analysis provided by the dynamic stiffness method in obtaining solutio

In this work, wave propagation in structural waveguide systems is analyzed. For this purpose a semi-analytical finite element technique has been adapted and further developed. With this technique, the dispersion properties of waveguide structures built up of thin-walled finite strip elements can be

An exact viscoelastic analogous relation between a periodically layered elastic medium and a homogeneous viscoelastic medium was introduced, based upon which a short-time relaxation function was developed. Both the wave front decay and the spatial attenuation of stress waves in a periodically layere