AbstractA new method called the moving element method is formulated to solve two problems in a unified framework: (a) rotating disk subjected to stationary load and (b) stationary disk subjected to rotating load. The method involves discretization of the disk into “moving elements”. But unlike in the conventional finite element method, these elements rotate relative to the disk and are not attached to material points. Analytical solutions in terms of complex Fourier–Hankel series are also presented. Numerical examples show good agreement between the proposed numerical method and the analytical method. The advantages of the proposed method over the analytical method and the finite element method are illustrated
International audienceThe purpose of the paper is to present a new numerical method suitable for the...
Annular finite elements for the computation of second and higher order harmonics modes of bladed rot...
This paper presents an efficient method for determining the forced response of a spinning flexible d...
AbstractA new method called the moving element method is formulated to solve two problems in a unifi...
10.1016/j.ijsolstr.2005.05.013International Journal of Solids and Structures431112-13
In-plane analysis of annular disks using the finite element method is presented. A semi-analytical, ...
The finite element method is applied to the analysis of rotating disks. The equation governing the t...
The axisymmetric and asymmetric in-plane, free vibration of annular disks using the finite element m...
In-plane dynamic behaviour of a thin annular disk with a clamped inner boundary is analyzed. The fre...
This study investigates the vibration characteristics of spinning annular disks with various boundar...
Techniques are presented for studying the dynamic response of circular disks excited by moving loads...
AbstractThe existing solutions of differential equations of equilibrium of an infinitesimal element ...
Techniques are presented for studying the dynamic response of circular disks excited by moving loads...
The purpose of this work is to analyze the nonlinear dynamic behavior of a rotating multi-layer annu...
A computationally efficient finite element model that can provide accurate numerical solutions to th...
International audienceThe purpose of the paper is to present a new numerical method suitable for the...
Annular finite elements for the computation of second and higher order harmonics modes of bladed rot...
This paper presents an efficient method for determining the forced response of a spinning flexible d...
AbstractA new method called the moving element method is formulated to solve two problems in a unifi...
10.1016/j.ijsolstr.2005.05.013International Journal of Solids and Structures431112-13
In-plane analysis of annular disks using the finite element method is presented. A semi-analytical, ...
The finite element method is applied to the analysis of rotating disks. The equation governing the t...
The axisymmetric and asymmetric in-plane, free vibration of annular disks using the finite element m...
In-plane dynamic behaviour of a thin annular disk with a clamped inner boundary is analyzed. The fre...
This study investigates the vibration characteristics of spinning annular disks with various boundar...
Techniques are presented for studying the dynamic response of circular disks excited by moving loads...
AbstractThe existing solutions of differential equations of equilibrium of an infinitesimal element ...
Techniques are presented for studying the dynamic response of circular disks excited by moving loads...
The purpose of this work is to analyze the nonlinear dynamic behavior of a rotating multi-layer annu...
A computationally efficient finite element model that can provide accurate numerical solutions to th...
International audienceThe purpose of the paper is to present a new numerical method suitable for the...
Annular finite elements for the computation of second and higher order harmonics modes of bladed rot...
This paper presents an efficient method for determining the forced response of a spinning flexible d...