Effect of piezoelectric fiber-reinforced composite (PFRC) actuator orientation on controllability of antisymmetric composite plates for active vibration control
Апстракт
Piezoelectric materials have a wide range of application on the active vibration control of
flexible structures as actuators and sensors due to its inverse and direct piezoelectric effect. In
order to increase performance of active vibration control, piezoelectric fibers are stacked into
single layer composite, making piezoelectric fiber-reinforced composite (PFRC) actuator and
sensor. These actuators and sensors are used for active vibration control of a thin-walled
structures, placing them at the surface of the structure. Since that, control performances depend
on sizes, positions and orientations of PFRC actuators and sensors. The aim of this paper is to
investigate the effect of PFRC actuator orientation and position (top or bottom) on controllability
of cross-ply and angle-ply antisymmetric composite plates for active vibration control. Depending
on layers' orientation, composite laminates possess coupling behavior (bending-stretching,
bending-shear coupling). Since anti...symmetric laminates possess bending-stretching coupling
behavior, the effect of this behavior on controllability will be also discussed.
Кључне речи:
Piezoelectric actuator / composite plates / active vibration control / controllabilityИзвор:
6th International Congress of Serbian Society of Mechanics, Tara, Serbia, 2017, 2017, C1aИздавач:
- Serbian Society of Mechanics
Финансирање / пројекти:
- info:eu-repo/grantAgreement/MESTD/Technological Development/35035/RS// (RS-MESTD-Technological Development-35035)
Колекције
Институција/група
Mašinski fakultetTY - CONF AU - Zorić, Nemanja AU - Tomović, Aleksandar AU - Jovanović, Miroslav AU - Lukić, Nebojša AU - Stokić, Zoran PY - 2017 UR - https://machinery.mas.bg.ac.rs/handle/123456789/4074 AB - Piezoelectric materials have a wide range of application on the active vibration control of flexible structures as actuators and sensors due to its inverse and direct piezoelectric effect. In order to increase performance of active vibration control, piezoelectric fibers are stacked into single layer composite, making piezoelectric fiber-reinforced composite (PFRC) actuator and sensor. These actuators and sensors are used for active vibration control of a thin-walled structures, placing them at the surface of the structure. Since that, control performances depend on sizes, positions and orientations of PFRC actuators and sensors. The aim of this paper is to investigate the effect of PFRC actuator orientation and position (top or bottom) on controllability of cross-ply and angle-ply antisymmetric composite plates for active vibration control. Depending on layers' orientation, composite laminates possess coupling behavior (bending-stretching, bending-shear coupling). Since antisymmetric laminates possess bending-stretching coupling behavior, the effect of this behavior on controllability will be also discussed. PB - Serbian Society of Mechanics C3 - 6th International Congress of Serbian Society of Mechanics, Tara, Serbia, 2017 T1 - Effect of piezoelectric fiber-reinforced composite (PFRC) actuator orientation on controllability of antisymmetric composite plates for active vibration control IS - C1a UR - https://hdl.handle.net/21.15107/rcub_machinery_4074 ER -
@conference{ author = "Zorić, Nemanja and Tomović, Aleksandar and Jovanović, Miroslav and Lukić, Nebojša and Stokić, Zoran", year = "2017", abstract = "Piezoelectric materials have a wide range of application on the active vibration control of flexible structures as actuators and sensors due to its inverse and direct piezoelectric effect. In order to increase performance of active vibration control, piezoelectric fibers are stacked into single layer composite, making piezoelectric fiber-reinforced composite (PFRC) actuator and sensor. These actuators and sensors are used for active vibration control of a thin-walled structures, placing them at the surface of the structure. Since that, control performances depend on sizes, positions and orientations of PFRC actuators and sensors. The aim of this paper is to investigate the effect of PFRC actuator orientation and position (top or bottom) on controllability of cross-ply and angle-ply antisymmetric composite plates for active vibration control. Depending on layers' orientation, composite laminates possess coupling behavior (bending-stretching, bending-shear coupling). Since antisymmetric laminates possess bending-stretching coupling behavior, the effect of this behavior on controllability will be also discussed.", publisher = "Serbian Society of Mechanics", journal = "6th International Congress of Serbian Society of Mechanics, Tara, Serbia, 2017", title = "Effect of piezoelectric fiber-reinforced composite (PFRC) actuator orientation on controllability of antisymmetric composite plates for active vibration control", number = "C1a", url = "https://hdl.handle.net/21.15107/rcub_machinery_4074" }
Zorić, N., Tomović, A., Jovanović, M., Lukić, N.,& Stokić, Z.. (2017). Effect of piezoelectric fiber-reinforced composite (PFRC) actuator orientation on controllability of antisymmetric composite plates for active vibration control. in 6th International Congress of Serbian Society of Mechanics, Tara, Serbia, 2017 Serbian Society of Mechanics.(C1a). https://hdl.handle.net/21.15107/rcub_machinery_4074
Zorić N, Tomović A, Jovanović M, Lukić N, Stokić Z. Effect of piezoelectric fiber-reinforced composite (PFRC) actuator orientation on controllability of antisymmetric composite plates for active vibration control. in 6th International Congress of Serbian Society of Mechanics, Tara, Serbia, 2017. 2017;(C1a). https://hdl.handle.net/21.15107/rcub_machinery_4074 .
Zorić, Nemanja, Tomović, Aleksandar, Jovanović, Miroslav, Lukić, Nebojša, Stokić, Zoran, "Effect of piezoelectric fiber-reinforced composite (PFRC) actuator orientation on controllability of antisymmetric composite plates for active vibration control" in 6th International Congress of Serbian Society of Mechanics, Tara, Serbia, 2017, no. C1a (2017), https://hdl.handle.net/21.15107/rcub_machinery_4074 .