Dynamic analysis of rectangular plates crossed by distributed moving loads

This study investigates the dynamic behaviour of plates crossed by distributed moving gravita-tional and inertial loads, in the case in which the relative magnitude of the moving mass introduces a coupling effect with the structure, with possible applications to vibration analysis of railway bridges. A rectangular Kirchhoff plate is considered, simply supported on two opposite edges and free on the other two edges, loaded by a partially distributed mass travelling in parallel direction with respect to the free edges. The formulation includes damping, and it is accomplished by the Rayleigh–Ritz method, expressing the solution in semi–analytical form. The shape functions for describing the transverse displacement field of the plate are selected as tensor products of linearly independent eigenfunctions of homogeneous uniform beams in flexural vibration, yielding a low order model with time–dependent coefficients. Numerical examples are then presented and discussed, aimed at investigating the effects of each of the model governing parameters.