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Evaluation of actuator, sensor and fatigue performance of piezo-metal-composites

Bewertung der Aktor-, Sensor- und Dauerfestigkeitsperformance von Piezo-Metall-Verbunden
 
: Drossel, Welf-Guntram; Hensel, Sebastian; Nestler, Matthias; Lachmann, Lutz

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Preprint urn:nbn:de:0011-n-2909699 (10 MByte PDF)
MD5 Fingerprint: 784c66fca0ab22b6fec2b1d900549aea
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Erstellt am: 3.6.2014


IEEE Sensors Journal 14 (2014), Nr.7, S.2129-2137
ISSN: 1530-437X
Englisch
Zeitschriftenaufsatz, Elektronische Publikation
Fraunhofer IWU ()
macro fiber composite; MFC; piezoceramic; numerical simulation; fatigue behavior; actuator model; sensor model; high cycle fatigue

Abstract
Fabrication technologies for Multi-Layer-Composites with sensor and actuator functionality were proposed in a previous study. Inside the compounds, Macro-Fiber-Composites (MFC) are embedded in a layer of epoxy adhesive between two outer aluminum sheets. Forming takes place whilst the adhesive is still in an uncured state. Relative displacements between the layers and the MFC is possible, which reduces friction loads for the brittle piezoceramic fibers of the MFC. This paper deals with the experimental and numerical characterization of the actuator and sensor functionality dependent on different bending radii and additionally the fatigue behavior of the compounds. The sensor functionality is tested with a shaker, which initiates a defined deflection. The electric response of the integrated MFC is measured and simulated by use of an analytical sensor function model based on strain components. The actuator performance, measured with a distance laser sensor, is modeled with a voltage-temperatureanalogy and compared with values from the experiment. The fatigue behavior and the performance reduction of embedded MFC is investigated with cyclic four-point-bending loading. Loads near and above the elastic limit of the sheet metals cause a higher delamination tendency. Specimens that are loaded at a reasonable distance from the elastic limit reach the high cycle fatigue limit of 2:0E + 06 cycles. Thus, the production method for Multi-Layer-Composites with embedded piezoceramic fiber modules discussed in the present paper is suitable for the manufacturing of structural parts that undergo a high number of load cycles.

: http://publica.fraunhofer.de/dokumente/N-290969.html