Random Vibration of a Beam with a Stick-slip End Condition

The complex mode superposition method for the dynamical analysis of a simply supported beam with two rotational viscous dampers attached at its end is presented. First, a numerical procedure for the evaluation of complex frequencies and modes of vibration has been worked out. Second, the appropriate

A continuous cracked beam vibration theory is used for the prediction of changes in transverse vibration of a simply supported beam with a breathing crack. The equation of motion and the boundary conditions of the cracked beam considered as a one-dimensional continuum were used. The eigenfrequency c

A survey of the literature shows that the titleproblem has not been studied to any great extent. In the present paper an approximate solution is obtained in the case of a beam with ends elastically restrained against rotation and an intermediate support. A sinusoidally varying excitation is assumed.

In this paper, a new wave re#ector called random wave re#ector (RWR) is introduced for the control of transverse vibration and wave propagation in an in"nite, multi-span, simple-support beam. In order to illustrate the theory, RWR is "rst tested in a simple con"guration of controlling plane wave pro

An analytical model is proposed which consists of two Euler-Bernoulli beams joined by a torsional spring with linear and cubic stiffness. The method of harmonic balance is used to find an approximate solution for simply supported and clamped end conditions. Specifically, a one term harmonic balance