Prediction of vibrational power transmission through jointed beams

Previous research into structural vibration transmission paths has shown that it is possible to predict vibrational power transmission in simple beam and plate structures. However, in many practical structures transmission paths are composed of more complex curved elements; therefore, there is a nee

Previous research into structural vibration transmission paths has shown that it is possible to measure vibrational power transmission in simple beam and plate structures. However, in many practical structures transmission paths are composed of more complex, curved elements, therefore there is a nee

The evaluation of vibratory power transmission in structural junctions is an important part of the study of structure-borne noise. In this paper, a method for calculating the transmission efficiency of three-dimensional beam junctions is described. It takes into account the effects of unsymmetrical

An approach based on flexural wave motion has been developed to investigate vibrational power transmission in a uniform, multi-supported beam. The method can be applied to a finite beam with multiple, different supports subjected to harmonic forces and/or moments. In addition, the method is generall

A dynamic model is described for vibration isolation systems consisting of a source machine, multiple vibration isolators and a supporting structure. The machine is modeled as a rigid body of six degrees of freedom. Each of the isolators is treated as an assembly of six simple translational and rota