Simulation-based Homogenization and Characterization Approach for Piezoelectric Actuators

Conference contribution
(Conference Contribution)


Publication Details

Author(s): Weiß M, Rupitsch S
Editor(s): AMA
Publication year: 2017
Conference Proceedings Title: PROCEEDINGS – AMA Conferences 2017
Pages range: 415-419


Abstract


Piezoelectric actuators, such as piezoelectric stack actuators and patch transducers, are utilized in a wide field of applications. Numerical simulations are commonly exploited to predict the electrical and mechanical performance of the applied piezoelectric actuators and further components. The complex composition of commercially available piezoelectric actuators, however, leads to high simulation durations and an excessive characterization effort. We present an approach to homogenize and simultaneously characterize piezoelectric actuator structures through the simulation-based inverse method. As a result, the homogeneous actuator model consists of only one fictive material with effective material parameters.

In contrast to common bottom-up homogenization methods, our approach does not require

material parameters of all involved materials and is not reliant upon the knowledge about the detailed actuator structure.



FAU Authors / FAU Editors

Rupitsch, Stefan PD Dr.
Lehrstuhl für Sensorik
Weiß, Manuel
Lehrstuhl für Sensorik


How to cite

APA:
Weiß, M., & Rupitsch, S. (2017). Simulation-based Homogenization and Characterization Approach for Piezoelectric Actuators. In AMA (Eds.), PROCEEDINGS – AMA Conferences 2017 (pp. 415-419). Nürnberg.

MLA:
Weiß, Manuel, and Stefan Rupitsch. "Simulation-based Homogenization and Characterization Approach for Piezoelectric Actuators." Proceedings of the AMA SENSOR 2017, Nürnberg Ed. AMA, 2017. 415-419.

BibTeX: 

Last updated on 2018-19-10 at 14:00