AbstractWhen measurement rotating speed exceeds 0.3 times natural frequency, the SNR of vibration signal will be enhanced obviously in dynamic unbalance measurement. The calibration method proposed by authors can reduce the dynamic unbalance measurement error due to different rotor's mass and different rotating speed along with enhancing vibration signal when rotating speed is above 0.3 times natural frequency. The relation between unbalance mass and sensors’ signal is affected by several elements such as system damping, rotor's mass, rotating speed and so on. When rotating speed exceeds 0.3 times natural frequency, these elements cannot be all ignored. Meanwhile increasing rotating speed can bring advantage of enhanced vibration signals. A...
The dynamics of rotating machinery are dominated by responses due to shaft and drive train character...
Abstract Several sophisticated procedures for balancing flexible rotors have been developed during t...
Traditionally, rotor balancing is performed based only on vibration readings from either a balancing...
AbstractWhen measurement rotating speed exceeds 0.3 times natural frequency, the SNR of vibration si...
The most common cause of the excessive vibration in rotating machines is the rotor mass unbalance. I...
Mechanical unbalance is an important source of vibrations that can cause malfunctions in rotodynamic...
The principles of measuring rotor unbalance are described for balancing machines with active dynamic...
A new type of balancing machine is proposed which uses a dynamic vibration absorber as a device meas...
Several researchers have proposed many methods for balancing the rotor to reduce the machine vibrati...
To achieve acceptable dynamical behavior for large rotating machines operating at subcritical speeds...
As rotary machines have become more complicated, balancing processes have been classified as a vital...
Mass unbalance is one of the most prominent faults that occurs in rotating machines. The identificat...
This paper approaches the static and dynamic experimental balancing, applied to rotating machinery, ...
Rotating machinery is widely used in industry. Vibration caused by mass imbalance is a common proble...
On the base of the causes of the rotor's unbalanced vibration, the rigid rotor mathematic model was ...
The dynamics of rotating machinery are dominated by responses due to shaft and drive train character...
Abstract Several sophisticated procedures for balancing flexible rotors have been developed during t...
Traditionally, rotor balancing is performed based only on vibration readings from either a balancing...
AbstractWhen measurement rotating speed exceeds 0.3 times natural frequency, the SNR of vibration si...
The most common cause of the excessive vibration in rotating machines is the rotor mass unbalance. I...
Mechanical unbalance is an important source of vibrations that can cause malfunctions in rotodynamic...
The principles of measuring rotor unbalance are described for balancing machines with active dynamic...
A new type of balancing machine is proposed which uses a dynamic vibration absorber as a device meas...
Several researchers have proposed many methods for balancing the rotor to reduce the machine vibrati...
To achieve acceptable dynamical behavior for large rotating machines operating at subcritical speeds...
As rotary machines have become more complicated, balancing processes have been classified as a vital...
Mass unbalance is one of the most prominent faults that occurs in rotating machines. The identificat...
This paper approaches the static and dynamic experimental balancing, applied to rotating machinery, ...
Rotating machinery is widely used in industry. Vibration caused by mass imbalance is a common proble...
On the base of the causes of the rotor's unbalanced vibration, the rigid rotor mathematic model was ...
The dynamics of rotating machinery are dominated by responses due to shaft and drive train character...
Abstract Several sophisticated procedures for balancing flexible rotors have been developed during t...
Traditionally, rotor balancing is performed based only on vibration readings from either a balancing...