Unbalance response of rotor systems by the dynamic stiffness method

Unbalance response analysis is essential in the dynamic analysis of rotor-bearing systems. However, there still remains a problem in the aspect of computational efficiency for unbalance response analysis of large rotor-bearing systems. Gyroscopic terms and local bearing parameters in rotor-bearing s

This study treats a spur gear tooth as a variable cross-section Timoshenko beam to construct a dynamic model, being able to obtain transient response for spur gears of involute pro"les. The dynamic responses of a single tooth and a gear pair are investigated. Firstly, polynomials are used to represe

The rotor-to-stator rub is one of the main serious malfunctions that often occur in rotating machinery. Previous research has provided enough tools to judge the existence of this fault. However, it is still a di$cult task to detect the rubbing position in a multi-disk rotor system. In this paper, th

The dynamic stiffness method is extended to large amplitude free and forced vibrations of frames. When the steady state vibration is concerned, the time variable is replaced by the frequency parameter in the Fourier series sense and the governing partial differential equations are replaced by a set