COMMENTS ON “VIBRATIONAL ANALYSIS OF CIRCULAR AND ELLIPTICAL PLATES CARRYING POINT AND RING MASSES AND WITH EDGES ELASTICALLY RESTRAINED”

An analysis is developed for the restrained vibration of circular and elliptical plates, mass-loaded at the center and along the periphery. The plates are restrained along the edges by rotational and translational springs. The optimized Rayleigh-Ritz technique is used to obtain an approximate soluti

This paper deals with the solution of the title problem in the case of an orthotropic plate with three edges elastically restrained against rotation whilst transverse displacement is prevented. It is assumed that the fourth edge is elastically restrained against rotation and translation. The natura

The natural frequencies and the corresponding mode shapes of a uniform cantilever beam carrying ''any number of'' elastically mounted point masses are determined by means of the analytical-and-numerical-combined method (ANCM). One of the key points for the present method is to replace each spring-ma

A recent work by Achong [1] presents a vibration analysis of mass loaded plates and shallow shells by using the receptance method. In the analysis, a technique is developed for computing transverse mode amplitudes from experimental values of the fundamental frequencies of mass-loaded systems. The f

We find the title paper both useful and very interesting and we would like to congratulate the authors to their work [1]. On the other hand it is also the purpose of this letter to add some pertinent references which have been inadvertently omitted by the authors. Reference [2] deals with elastical