Acoustic emission monitoring using a multimode optical fibre sensor

Permanent damage in various materials and constructions often causes high-energy high-frequency acoustic waves. To detect those so-called 'acoustic emission (AE) events', in most cases ultrasonic transducers are embedded in the structure or attached to its surface. However, for many applications where event localisation is less important, an embedded low-cost multimode optical fibre sensor configured for event counting may be a better alternative due to its corrosion resistance, immunity to electromagnetic interference and light-weight. The sensing part of this intensitymodulated sensor consists of a multimode optical fibre. The sensing principle now relies on refractive index variations, microbending and mode-mode interferences by the action of the acoustic pressure wave. A photodiode is used to monitor the intensity of the optical signal and transient signal detection techniques (filtering, frame-to-frame analysis, recursive noise estimation, power detector estimator) on the photodiode output are applied to detect the events. In this work, the acoustic emission monitoring capabilities of the multimode optical fibre sensor are demonstrated with the fibre sensor embedded in the liner of a Power Data Transmission (PDT) coil to detect damage (delamination, matrix cracking and fibre breaking) while bending the coil. With the Hankel Total Least Square (HTLS) technique, it is shown that both the acoustic emission signal and optical signal can be modelled with a sum of exponentially damped complex sinusoids with common poles.