Add to ORKGActive control of vibrations has become a relevant technology for many sectors. For most of the established applications electrodynamic actuators are used so far. Yet, the integration of piezoelectric actuators enables new designs which promise a higher level of integration and compactness. However, the piezoelectric actuators also raise some challenges, since they are sensitive to misuse loads and possess a rather high stiffness. In this paper, three examples for active vibration control systems are introduced. The specific issues regarding the integration of piezoelectric actuators and the solutions implemented are described
Passive vibration control solutions are often limited to working reliably at one design point. Espec...
An Introduction to Active Vibration Control; A. Preumont. Active Sound Control; S.J. Elliott. Active...
Passive vibration control solutions are often limited to working reliably at one design point. Espec...
Flexible mechanical systems experience undesirable vibration in response to environmental and operat...
Unwanted vibrations are a common occurrence within structures and systems, and often pose a threat t...
AbstractPiezoelectric (PZT) actuator is a device based on counter piezoelectric effect, applying a v...
Passive vibration control solutions like tuned vibration absorbers are often limited to tackle a sin...
Active control of vibrations can outperform passive systems in certain applications, e.g. when broad...
The paper is divided into three parts. The first one is devoted to the active damping of structures ...
Piezoelectric sensors and actuators are widely used in vibration control due to their lightweight an...
This paper describes an investigation into an active four-mount vibration isolation system...
This paper describes an investigation into an active four-mount vibration isolation system...
This paper describes an investigation into an active four-mount vibration isolation system...
Noise and vibration problems often originate from bending modes in structures. As an alternative to ...
The work has been supported by the Czech Science Foundation Project Mechatronic structures with heav...
Passive vibration control solutions are often limited to working reliably at one design point. Espec...
An Introduction to Active Vibration Control; A. Preumont. Active Sound Control; S.J. Elliott. Active...
Passive vibration control solutions are often limited to working reliably at one design point. Espec...
Flexible mechanical systems experience undesirable vibration in response to environmental and operat...
Unwanted vibrations are a common occurrence within structures and systems, and often pose a threat t...
AbstractPiezoelectric (PZT) actuator is a device based on counter piezoelectric effect, applying a v...
Passive vibration control solutions like tuned vibration absorbers are often limited to tackle a sin...
Active control of vibrations can outperform passive systems in certain applications, e.g. when broad...
The paper is divided into three parts. The first one is devoted to the active damping of structures ...
Piezoelectric sensors and actuators are widely used in vibration control due to their lightweight an...
This paper describes an investigation into an active four-mount vibration isolation system...
This paper describes an investigation into an active four-mount vibration isolation system...
This paper describes an investigation into an active four-mount vibration isolation system...
Noise and vibration problems often originate from bending modes in structures. As an alternative to ...
The work has been supported by the Czech Science Foundation Project Mechatronic structures with heav...
Passive vibration control solutions are often limited to working reliably at one design point. Espec...
An Introduction to Active Vibration Control; A. Preumont. Active Sound Control; S.J. Elliott. Active...
Passive vibration control solutions are often limited to working reliably at one design point. Espec...