On the stability of rotating, axially loaded, homogeneous shafts

A simple structural model is adopted to study the stability of a rotating cantilever shaft with uniformly distributed mass, mass moment of inertia, and stiffness. The shaft carries a rigid disk at its free end, where it is subjected to follower axial force and torque load. The Lagrangian approach an

The dynamic response of a rotating shaft subject to an axially, constant-velocity, moving and rotating load is investigated. The dynamic behaviour of future, high-speed linear bearings is studied. Shafts used in linear bearing applications are typically slender. Therefore, Rayleigh beam theory is us

The dynamic response of a rotating shaft subject to axial force and moving loads is analyzed by using Timoshenko beam theory and the assumed mode method. The deformations of the shaft are expressed in terms of an inertial reference frame. The kinetic and potential energy are then expressed in matrix

The stability of a rotating cracked shaft subjected to the end load, an axial compressive force, is studied and the influences of the existing open crack on the natural whirling speeds of the shaft are discussed. A finite element model of Timoshenko beam is adopted to approximate the continuous shaf