Finite element analysis of torsional and torsional–flexural stability problems

Rotors are usually modeled as deformable beams for the shafts and as rigid bodies, whose mass and moments of inertia are concentrated in chosen locations for all other components. If the rotor is provided with thin discs, however, the rigid body assumption can be too crude to yield satisfactory resu

The aim of this paper is to develop the formulation of a finite element for the study of the axial, torsional and flexural dynamic behavior of a rotating array of blades taking into account the gyroscopic effect and the centrifugal loadings. The displacements within the element are described in term

## Abstract This work deals with the development of a new C^1^ finite element for analysing the bending and torsional behaviour of rectangular piezoelectric laminated/sandwich composite beams. The formulation includes transverse shear, warping due to torsion, and elastic–electric coupling effects.

The purpose of this paper is to present a simple approach for eliminating the &&dependent'' torsional angles existing in the reduction gears of a gear-branched system so that this system may be modelled as an equivalent straight-geared (or direct-transmitted) system. Then the overall mass matrix, da

This work presents an assumed hybrid displacement finite element model to deal with an axisymmetric cracked solid subjected to static as well as dynamic torsional loadings. A ring type hybrid singular crack element embedded with correct Williams' singularities is devised to analyze the region near t