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11 March 2003 Fabrication and vibration suppression behavior of metal core piezoelectric fibers in CFRP composite
Hiroshi Sato, Yoshiro Shimojo, Tadashi Sekiya
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Proceedings Volume 4946, Transducing Materials and Devices; (2003) https://doi.org/10.1117/12.468372
Event: Photonics Fabrication Europe, 2002, Bruges, Belgium
Abstract
In an attempt to develop piezoelectric sensor and actuator for smart board, complex piezoelectric fibers with metal core were fabricated by both hydrothermal method and extrusion method. The insertion of metal core was significant in view that the fragility of ceramics can be overcome and electrodes are not required in the use as sensor and actuator. In order to evaluate the sensor and actuator abilities of these new-type fibers, a cantilever structure was constructed by embedding them into the surface of CFRP composite board. As a result of vibration test of this CFRP board by electromagnetic vibrator, it was found that the fiber has an obvious sensor function, since electric charge was output from the fiber in proportion to the vibration amplitude. On the contrary, it is also evident that the fiber can function as actuator, since the CFRP board was vibrated by applying an AC voltage between the metal core and CFRP matrix. By connecting the shunt circuit with the piezoelectricity fiber, it was proven that the vibration in the smart board could be suppressed.
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Hiroshi Sato, Yoshiro Shimojo, and Tadashi Sekiya "Fabrication and vibration suppression behavior of metal core piezoelectric fibers in CFRP composite", Proc. SPIE 4946, Transducing Materials and Devices, (11 March 2003); https://doi.org/10.1117/12.468372
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KEYWORDS
Sensors
Metals
Ferroelectric materials
Actuators
Composites
Electrodes
Titanium
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