We present a numerical procedure to solve the axisymmetric vibration problem of statically loaded annular plates. We use the von Kármán nonlinear plate model to account for large deformations and study the effect of static deflections on the natural frequencies and mode shapes for six combinations of boundary conditions. The shooting method is used to solve the resulting eigenvalue problem. Our results show that static deformations have a significant effect on the natural frequencies and small effect on the mode shapes of the plate. Further, the results show that the presence of in-plane stresses has a significant effect on the natural frequencies
Estimates of natural frequencies corresponding to axisymmetric modes of flexural vibration of polar ...
The classical Rayleigh-Ritz method with simple polynomials as admissible functions has been used for...
A variant of the Rayleigh-Ritz method is presented for solving the free vibration problem of annular...
Abstract. We present a numerical procedure to solve the axisymmetric vibration problem of statically...
In this paper, the non-linear free axisymmetric vibration of a thin annular plate made of functional...
The effects of large vibration amplitudes on the first axisymetric mode shape of thin isotropic annu...
An exhaustive set of numerical results covering buckling loads and frequency parameter values obtain...
Based on first order shear deformation theory, free vibrational behaviour of antisymmetric angle-ply...
Buckling load and frequency parameters evaluated through the finite element method for moderately th...
The axisymmetric and asymmetric in-plane, free vibration of annular disks using the finite element m...
The free vibration of annular thick plates with linearly varying thickness along the radial directio...
Buckling and free vibration of an annular plate with clamped inner boundary and a concentrated, in-p...
In this paper, a non-classical microplate model is developed for the axisymmetric nonlinear free vib...
Free vibration of an annular sector plate simply supported along the radial edges is examined. Natur...
We introduce solution methods capable of treating static bending and free vibration problems involvi...
Estimates of natural frequencies corresponding to axisymmetric modes of flexural vibration of polar ...
The classical Rayleigh-Ritz method with simple polynomials as admissible functions has been used for...
A variant of the Rayleigh-Ritz method is presented for solving the free vibration problem of annular...
Abstract. We present a numerical procedure to solve the axisymmetric vibration problem of statically...
In this paper, the non-linear free axisymmetric vibration of a thin annular plate made of functional...
The effects of large vibration amplitudes on the first axisymetric mode shape of thin isotropic annu...
An exhaustive set of numerical results covering buckling loads and frequency parameter values obtain...
Based on first order shear deformation theory, free vibrational behaviour of antisymmetric angle-ply...
Buckling load and frequency parameters evaluated through the finite element method for moderately th...
The axisymmetric and asymmetric in-plane, free vibration of annular disks using the finite element m...
The free vibration of annular thick plates with linearly varying thickness along the radial directio...
Buckling and free vibration of an annular plate with clamped inner boundary and a concentrated, in-p...
In this paper, a non-classical microplate model is developed for the axisymmetric nonlinear free vib...
Free vibration of an annular sector plate simply supported along the radial edges is examined. Natur...
We introduce solution methods capable of treating static bending and free vibration problems involvi...
Estimates of natural frequencies corresponding to axisymmetric modes of flexural vibration of polar ...
The classical Rayleigh-Ritz method with simple polynomials as admissible functions has been used for...
A variant of the Rayleigh-Ritz method is presented for solving the free vibration problem of annular...