ABSTRACT An analytical method is adopted to determine natural frequencies for a nonlinear spinning disk. The disk is assumed to be isotropic and rotating under steady state conditions. The effects of amplitude and rotating speed on natural frequencies are determined. The developed procedure is also capable of analyzing natural frequencies of linear free vibration, which is independent of amplitude. Attention is confined to determine natural frequencies for different numbers of nodal diameters. The developed procedure does not consider modes of vibration corresponding to nodal circles. Validity of this procedure is verified by comparing some of the computed results with those established for certain cases
The evaluation of the frequency response of a mechanical component is the key to understand its dyn...
AbstractIn this paper, free vibration of a simply supported rotating shaft with stretching nonlinear...
Some frequencies for the symmetrical normal nodes of a finite, isotropic disk are calculated by sati...
AbstractAn analytical nonlinear solution for the asymmetric mode vibration of rotating disks is give...
grantor: University of TorontoThis thesis considers a modelling and vibration analysis of ...
Free vibrations of rotating disks are investigated by using the Galerkin method. An approximate func...
This thesis provides a vibration analysis of a rotating cantilever beam with an independently rotati...
This study investigates the vibration characteristics of spinning annular disks with various boundar...
AbstractThis paper describes a step forward in calculating the nonlinear frequencies and resultant d...
An analytical method is presented for determination of vibration characteristics of high speed Doubl...
The linear in-plane free vibration of a thin, elastic, homogeneous, rotating annular disk is investi...
The mathematical model of rotor nonlinear oscillations on angular contact ball-bearings has been dev...
The transverse vibrations of rigid elastic flexible turbine discs, centrally clamped, are investigat...
The governing equations of the transverse vibration of a spinning disk of varying thickness are deri...
A methodology is presented for the calculation of the natural frequencies of orthotropic axisymmetri...
The evaluation of the frequency response of a mechanical component is the key to understand its dyn...
AbstractIn this paper, free vibration of a simply supported rotating shaft with stretching nonlinear...
Some frequencies for the symmetrical normal nodes of a finite, isotropic disk are calculated by sati...
AbstractAn analytical nonlinear solution for the asymmetric mode vibration of rotating disks is give...
grantor: University of TorontoThis thesis considers a modelling and vibration analysis of ...
Free vibrations of rotating disks are investigated by using the Galerkin method. An approximate func...
This thesis provides a vibration analysis of a rotating cantilever beam with an independently rotati...
This study investigates the vibration characteristics of spinning annular disks with various boundar...
AbstractThis paper describes a step forward in calculating the nonlinear frequencies and resultant d...
An analytical method is presented for determination of vibration characteristics of high speed Doubl...
The linear in-plane free vibration of a thin, elastic, homogeneous, rotating annular disk is investi...
The mathematical model of rotor nonlinear oscillations on angular contact ball-bearings has been dev...
The transverse vibrations of rigid elastic flexible turbine discs, centrally clamped, are investigat...
The governing equations of the transverse vibration of a spinning disk of varying thickness are deri...
A methodology is presented for the calculation of the natural frequencies of orthotropic axisymmetri...
The evaluation of the frequency response of a mechanical component is the key to understand its dyn...
AbstractIn this paper, free vibration of a simply supported rotating shaft with stretching nonlinear...
Some frequencies for the symmetrical normal nodes of a finite, isotropic disk are calculated by sati...