Optimal Vibration Quenching for an Euler–Bernoulli Beam

In this paper, vibration control of a rotating Euler}Bernoulli beam is considered. It is assumed that the "xed}free elastic beam is attached to the servomotor which uses PD control to achieve the desired angular rotation, at the same time, the shear force measured at the root of the beam is used as

This paper describes the lateral vibration of a uniform Euler-Bernoulli beam that is doubly symmetric in cross-section and attached radially to the outside of a rotating hub. It is assumed that a principal axis of the beam is parallel to the axis of rotation and thus the out-of-plane and in-plane vi

A numerical method for approximating coefficients in an Euler-Bernoulli beam equation from spectral data is proposed. The technique is based on a shooting method and constructs a beam that has the given spectral data. Numerical examples illustrate the performance of the method.

In earlier papers [1,2], Naguleswaran studied the vibrations of beams with non-uniform thickness by solving the differential equation with the Frobenius method, which gives the solutions in infinite power series. The author observed the fact that, for some cases, even the quadruple precision could n