ON THE VIBRATION OF A ROTATING BLADE ON A TORSIONALLY FLEXIBLE SHAFT

The simulations of multibody dynamic systems with #exible components are generally based on solving the equations of motion by using approximate methods. This approach is taken because these systems' closed-form solutions are often not directly available. These methods often assume a solution as a "

The problems of the vibration of rotating cylindrical shells are solved by using nine-node super-parametric "nite element with shear and axial deformation and rotatory inertial. The non-linear plate-shell theory for large de#ection is used to handle the cylindrical shell before it reaches equilibriu

Typical experimental prototypes of flexible robot arms are constituted as a rotating beam with distributed flexibility. The simplest example of flexible manipulators is a flexible slewing beam constrained to move in a horizontal plane. The beam is usually actuated by a motor and may carry a payload.

A relatively simple mathematical model involving an idealized rotating string constrained at one point is used to develop an understanding of the basic physical mechanisms that govern the development of unstable lateral vibration response. Equations de"ning the relationship between the interactive i