Pai et al., 1998 - Google Patents
Structural vibration control using PZT patches and non-linear phenomenaPai et al., 1998
View PDF- Document ID
- 10465107086868323838
- Author
- Pai P
- Wen B
- Naser A
- Schulz M
- Publication year
- Publication venue
- Journal of Sound and vibration
External Links
Snippet
We investigate non-linear saturation control, non-linear internal resonance control, and linear position-feedback control of steady-state and transient vibrations of a cantilever beam by using PZT (lead zirconate titanate) patches as actuators and sensors. The saturation …
- 229910052451 lead zirconate titanate 0 title abstract description 51
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Pai et al. | Structural vibration control using PZT patches and non-linear phenomena | |
| Denoyer et al. | Dynamic modelling and vibration suppression of a swelling structure utilizing piezoelectric sensors and actuators | |
| US5734246A (en) | Active piezo-electric vibration isolation and directional systems | |
| US5645260A (en) | Active piezo-electric vibration isolation and directional bracket | |
| Yang et al. | Interaction of structure vibration and piezoelectric actuation | |
| Sarangi et al. | Active damping of geometrically nonlinear vibrations of laminated composite plates using vertically reinforced 1-3 piezoelectric composites | |
| Bao et al. | Analysis of non-linear piezothermoelastic laminated beams with electric and temperature effects | |
| Pai et al. | Non-linear vibration absorbers using higher order internal resonances | |
| Oueini et al. | A review of development and implementation of an active nonlinear vibration absorber | |
| Fung et al. | Vibration characteristics of a rotating flexible arm with ACLD treatment | |
| Lim et al. | Closed loop finite element modeling of active structural damping in the frequency domain | |
| Vasques et al. | Active vibration control of a smart beam through piezoelectric actuation and laser vibrometer sensing: simulation, design and experimental implementation | |
| Ashour et al. | Experimental and numerical analysis of a nonlinear vibration absorber for the control of plate vibrations | |
| El-Bassiouny | Internal resonance of a nonlinear vibration absorber | |
| Vallone | High-performance piezo-based self-sensor for structural vibration control | |
| Jaensch et al. | Development of a multi-degree-of-freedom micropositioning, vibration isolation and vibration suppression system | |
| Liao et al. | Vibration suppression of flexible linkage mechanisms using piezoelectric sensors and actuators | |
| Pai et al. | Dynamics regulation of a skew cantilever plate using PZT patches and saturation phenomenon | |
| De Faria et al. | Modeling of actively damped beams with piezoelectric actuators with finite stiffness bond | |
| Ali et al. | Active Vibration Suppression of Aerobatic Aircraft Wing by Acceleration Feedback Controller | |
| Alhazza et al. | Nonlinear free vibration control of beams using acceleration delayed-feedback control | |
| Woody et al. | Performance comparison and modeling of PZN, PMN, and PZT stacked actuators in a levered flexure mechanism | |
| Götz et al. | Model verification and validation of a piezo-elastic support for passive and active structural state control of beams with circular cross-section | |
| Pai et al. | Vibration suppression of a skew cantilever plate using PZT patches | |
| Lin et al. | Analytical and experimental investigations on vibrational control mechanisms for flexible active structures |