Non-linear vibration of centrally clamped thin discs

This paper examines non-linear free vibration characteristics of "rst and second vibration modes of laminated shallow shells with rigidly clamped edges. Non-linear equations of motion for the shells based on the "rst order shear deformation and classical shell theories are derived by means of Hamilt

Large amplitude flexural vibrations of a moderately thick arch have been studied. The material of the arch has been assumed to be homogeneous, isotropic and linearly elastic. Governing equations have been derived by the variational method. Values of the period for different amplitudes, for arches wi

Non-linear modal analysis approach based on invariant manifold method proposed earlier by Shaw and Pierre (Journal of Sound and <ibration 164, 85}124) is utilized here to obtain the non-linear normal modes of a clamped}clamped beam for large amplitude displacements. The results obtained for the fund

An empirical non-linear damping model, for use with single-degree-of-freedom clamped-clamped beam vibrations driven by band-limited white noise, is calibrated by using large amplitude experimental measurements. To verify the model, two parameter estimation methods are initially tested on simulated d

The geometrically non-linear free vibration of thin composite laminated plates is investigated by using a theoretical model based on Hamilton's principle and spectral analysis previously applied to obtain the non-linear mode shapes and resonance frequencies of thin straight structures, such as beams