Vibration in rotating machinery leads to a series of undesired effects, e.g. noise, reduced service life or even machine failure. Even though there are many sources of vibrations in a rotating machine, the most common one is mass unbalance. Therefore, a detailed knowledge of the system behavior due to mass unbalance is crucial in the design phase of a rotor-bearing system. The modelling of the rotor and mass unbalance as a lumped system is a widely used approach to calculate the whirling motion of a rotor-bearing system. A more accurate representation of the real system can be found by a continuous model, especially if the mass unbalance is not constant and arbitrarily oriented in space. Therefore, a quasi-analytical method called Numerical...
Abstract: Analytical procedures are developed for predicting the dynamic behavior of rotor shaft sys...
Several researchers have proposed many methods for balancing the rotor to reduce the machine vibrati...
In rotating machinery, the second most common fault after imbalance is misalignment. Misalignment ca...
In this paper, a new application of the Numerical Assembly Technique is presented for the balancing ...
Rotating machinery support excitations can occur if a machine is installed on a base prone to ground...
Large unbalance in rotor-dynamic systems is typically responsible for high energy vibrations and the...
An unbalanced rotor will generate excessive force on various components of the machine adversely aff...
In this paper, a new method for the balancing of rotor-bearing systems supported on fluid film beari...
In this paper, the dynamic behavior of a rotor kit with two identical disks located between the plai...
An analysis and a computer program for determining the steady-state response of a general rotor-bear...
Rotors of some rotating machines consist of a shaft and a rigid disc attached to its overhanging end...
International audienceThis paper explores analytically the nonlinear dynamic behavior of rotors. Cou...
For dynamical systems having several degrees of freedom, motion in one direction can induce motion i...
AbstractThis paper describes a step forward in calculating the nonlinear frequencies and resultant d...
The dynamic behaviour of a rigid rotor supported on plain journal bearings was studied, focusing par...
Abstract: Analytical procedures are developed for predicting the dynamic behavior of rotor shaft sys...
Several researchers have proposed many methods for balancing the rotor to reduce the machine vibrati...
In rotating machinery, the second most common fault after imbalance is misalignment. Misalignment ca...
In this paper, a new application of the Numerical Assembly Technique is presented for the balancing ...
Rotating machinery support excitations can occur if a machine is installed on a base prone to ground...
Large unbalance in rotor-dynamic systems is typically responsible for high energy vibrations and the...
An unbalanced rotor will generate excessive force on various components of the machine adversely aff...
In this paper, a new method for the balancing of rotor-bearing systems supported on fluid film beari...
In this paper, the dynamic behavior of a rotor kit with two identical disks located between the plai...
An analysis and a computer program for determining the steady-state response of a general rotor-bear...
Rotors of some rotating machines consist of a shaft and a rigid disc attached to its overhanging end...
International audienceThis paper explores analytically the nonlinear dynamic behavior of rotors. Cou...
For dynamical systems having several degrees of freedom, motion in one direction can induce motion i...
AbstractThis paper describes a step forward in calculating the nonlinear frequencies and resultant d...
The dynamic behaviour of a rigid rotor supported on plain journal bearings was studied, focusing par...
Abstract: Analytical procedures are developed for predicting the dynamic behavior of rotor shaft sys...
Several researchers have proposed many methods for balancing the rotor to reduce the machine vibrati...
In rotating machinery, the second most common fault after imbalance is misalignment. Misalignment ca...