The enhancement of displacement of shear piezoelectric stack actuator with conductive adhesive

The shear piezoelectric stack actuator operates under d 15 mode with shear output, offering a vertical displacement with the voltage output. Restricted by the manufacturing of shear stacks, the bonding layer with adhesive has the ability of dielectrics, which has an energy loss and makes the input e...

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Published inInternational Conference on Advanced Mechatronic Systems pp. 72 - 76
Main Authors Kang, Huazhou, Yang, Yixiao, Wang, Quan, Yang, Xiaofeng
Format Conference Proceeding
LanguageEnglish
Published IEEE 26.11.2024
Subjects
Actuators
adhesive
Bonding
bonding layer
conductive adhesive
Conductive adhesives
Dielectrics
Energy loss
Manufacturing
Mechatronics
Motors
shear piezoelectric stack actuator
Voltage
Online AccessGet full text
ISSN2325-0690
DOI10.1109/ICAMechS63130.2024.10818822

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Abstract The shear piezoelectric stack actuator operates under d 15 mode with shear output, offering a vertical displacement with the voltage output. Restricted by the manufacturing of shear stacks, the bonding layer with adhesive has the ability of dielectrics, which has an energy loss and makes the input electric less than the desired value. The dielectric from the bonding adhesive would reduce the displacement output of the actuator. To enhance the displacement, in this paper, we alter the regular dielectric adhesive into conductive adhesive by adding metal-coated fillers inside. Results show that the actuator's displacement with the conductive adhesive is 19% higher than that of the stack with regular dielectric adhesive with 3.5% fillers. The displacement enhancement indicates that the replacement of conductive adhesive will have a future application in the design of the piezoelectric-base motor.
AbstractList The shear piezoelectric stack actuator operates under d 15 mode with shear output, offering a vertical displacement with the voltage output. Restricted by the manufacturing of shear stacks, the bonding layer with adhesive has the ability of dielectrics, which has an energy loss and makes the input electric less than the desired value. The dielectric from the bonding adhesive would reduce the displacement output of the actuator. To enhance the displacement, in this paper, we alter the regular dielectric adhesive into conductive adhesive by adding metal-coated fillers inside. Results show that the actuator's displacement with the conductive adhesive is 19% higher than that of the stack with regular dielectric adhesive with 3.5% fillers. The displacement enhancement indicates that the replacement of conductive adhesive will have a future application in the design of the piezoelectric-base motor.
Author Kang, Huazhou
Yang, Xiaofeng
Wang, Quan
Yang, Yixiao
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  organization: Fudan University,School of Microelectronics,Shanghai,China
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Snippet The shear piezoelectric stack actuator operates under d 15 mode with shear output, offering a vertical displacement with the voltage output. Restricted by the...
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StartPage 72
SubjectTerms Actuators
adhesive
Bonding
bonding layer
conductive adhesive
Conductive adhesives
Dielectrics
Energy loss
Manufacturing
Mechatronics
Motors
shear piezoelectric stack actuator
Voltage
Title The enhancement of displacement of shear piezoelectric stack actuator with conductive adhesive
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