Modal characteristics of rotors using a conical shaft finite element

A powerful matrix reduction technique is developed to analyze rotor-bearing systems. by using the modal data of the isotropic undamped stationary parts. This method gives significant reductions in computation time and core size, while maintaining accuracy and flexibility in use. It does not require

In this paper, the variation of the dynamic characteristics of a pear (Conference type) due to changes in material characteristics is investigated using "nite element simulations. An image processing techniques has been used to obtain the geometrical model of a Conference pear. The dynamic behaviour

Emphasis of this paper is given to the modal characteristics of a brake rotor which is utilized in automotive disc brake system. The brake rotor is modeled as a combined structure comprising an annular plate connected to a segment of cylindrical shell by distributed artificial springs. Modal analysi

It is known that for the numerical approximation of Oldroyd's B model for viscoelastic ¯uid ¯ows some upwinding is needed for the convection of the extra-stress tensor. In this paper we make the numerical analysis of such an approximation with upwinding by the method of characteristics in a ®nite el