Title :
Robust fiber optic sensors for vibration diagnostics
Author :
Agbodjan, J. ; Kohl, F. ; Voglhuber, T. ; Sauter, T. ; Keplinger, F. ; Stojkovic, M. ; Djinovic, Z.
Author_Institution :
Center for Integrated Sensor Syst., Danube Univ. Krems, Wiener Neustadt, Austria
Abstract :
We present a development study of a robust inter-ferometric transducer for elastic deformations excited by mechanical vibrations. In contrast to known methods using piezoelectric, fiber Bragg grating and Fabry-Perot interferometer sensors, we deal with pronounced spatially distributed transduction based on arbitrary shaped fiber segments like fiber optic coils. This approach allows, e.g., an omnidirectional sensitivity characteristic in case of circular shaped fiber segments, and offers a high immunity against electromagnetic interferences. Omnidirectional transducer characteristics are beneficial for vibration detection on complex shaped bodies. A finite element model simulation (FEM) is used to demonstrate the detection capacity for Lamb waves propagating in a carbon fiber reinforced polymer (CFRP) matrix.
Keywords :
Bragg gratings; Fabry-Perot interferometers; carbon fibre reinforced plastics; elastic deformation; electromagnetic interference; fibre optic sensors; finite element analysis; piezoelectric transducers; surface acoustic wave transducers; vibration measurement; CFRP; FEM; Fabry-Perot interferometer sensor; Lamb wave propagation; arbitrary shaped fiber segment; carbon fiber reinforced polymer; circular shaped fiber segment; elastic deformation; electromagnetic interference; fiber Bragg grating; finite element model; omnidirectional transducer; piezoelectric sensor; robust fiber optic sensor; robust interferometric transducer; spatially distributed transduction; vibration diagnostics; Coils; Optical interferometry; Optical propagation; Optical sensors; Robustness; Transducers;
Conference_Titel :
Emerging Technology and Factory Automation (ETFA), 2014 IEEE
Conference_Location :
Barcelona
DOI :
10.1109/ETFA.2014.7005344
