The stability threshold speed caused by rotating damping in rotating machinery is a limitation on the operating speed. The presence of the gyroscopic effect and rotating damping not only cause this unstable effect, both also result in difficulties to and to analyze the system. Although studied extensively in the past, the phenomenon is still difficult to model and validate experimentally. In this paper, a theoretical framework for the experimental validation is created by using the concept of a modal model combined with perturbation analysis. The concepts are validated by simulation and experiments which predict the stability threshold speed in three different situations of rotating damping. The simulation shows that the decay rate can be a...
The paper is focused on the stability computation of a rotating system affected by parametric excita...
Prediction of process stability in milling is usually based on experimental frequency response funct...
Prediction of process stability in milling is usually based on experimental frequency response funct...
The stability threshold speed caused by rotating damping in rotating machinery is a limitation on th...
In this paper, instability of rotating machinery systems due to rotating damping is investigated thr...
In the analysis of the stability threshold speed caused by rotating damping in rotating machinery, t...
High speed rotating machinery, with an operating speed above the first critical speed or above the f...
Rotor internal damping is recognized as one of the main causes for instabilities in rotating systems...
Through the year’s preventive maintenance, which is based on vibration measurements has grown in imp...
The experimental and analytical modal analysis is used to establish a system modelling methodology i...
Rotor internal damping has been indicated as one of the main causes of instability in rotating machi...
Rotors exposed to lateral vibration can become unstable at a certain speed due to rotor internal dam...
The driving speeds at which self-excited motions occur in rotor-bearing systems are commonly referre...
The effects of non-synchronousrotatingdamping, i.e., of energy dissipation in elements rotating at a...
When rotors operate in a supercritical regime, a phenomenon known as rotordynamic instability may oc...
The paper is focused on the stability computation of a rotating system affected by parametric excita...
Prediction of process stability in milling is usually based on experimental frequency response funct...
Prediction of process stability in milling is usually based on experimental frequency response funct...
The stability threshold speed caused by rotating damping in rotating machinery is a limitation on th...
In this paper, instability of rotating machinery systems due to rotating damping is investigated thr...
In the analysis of the stability threshold speed caused by rotating damping in rotating machinery, t...
High speed rotating machinery, with an operating speed above the first critical speed or above the f...
Rotor internal damping is recognized as one of the main causes for instabilities in rotating systems...
Through the year’s preventive maintenance, which is based on vibration measurements has grown in imp...
The experimental and analytical modal analysis is used to establish a system modelling methodology i...
Rotor internal damping has been indicated as one of the main causes of instability in rotating machi...
Rotors exposed to lateral vibration can become unstable at a certain speed due to rotor internal dam...
The driving speeds at which self-excited motions occur in rotor-bearing systems are commonly referre...
The effects of non-synchronousrotatingdamping, i.e., of energy dissipation in elements rotating at a...
When rotors operate in a supercritical regime, a phenomenon known as rotordynamic instability may oc...
The paper is focused on the stability computation of a rotating system affected by parametric excita...
Prediction of process stability in milling is usually based on experimental frequency response funct...
Prediction of process stability in milling is usually based on experimental frequency response funct...