Acoustic emission monitoring of a reinforced concrete structure by applying new fiber-optic sensors

Abstract: A novel fiber-optic sensor has been developed based on a newly found principle, the 'Doppler effect in a curved light waveguide'. Excellent performance of the circular loop sensor has been obtained. The circular loop sensor can detect the sum of principal strain rate with extremely high sensitivity and very wide frequency range. The sensitivity of the sensor was experimentally examined and the theoretical value was confirmed. The sensor was applied to damage detection in a reinforced concrete structural model … Show more

“…In the time domain, the time of arrival of the waveform detected by sensor array at known locations is used to determine the acoustic emission source location, through applying equations (7) and (11). All 11 impact points are excited several times to evaluate the repeatability of the measurements and to minimize experimental uncertainty.…”

“…Thus they are widely used in non-destructive Structural Health Monitoring (SHM) of plate structures as they are scattered and the relf4ected energy captured allows an estimation of the type and size of the damage encountered [9]. Here PZT based transducers are widely used due to low cost, reliability and robustness -but they show key limitations when electromagnetic Interference (EMI) is present and remote monitoring is required [10,11,12]. Thus they are not sufficiently versatile for measurements under more adverse circumstances, for example in remote monitoring applications where long cable lengths between the transducer and the receiver are used and EMI effects and 'signal fade' are seen over these over long distances.…”

Fibre Bragg Grating-Based Acoustic Sensor Array for Improved Condition Monitoring of Marine Lifting Surfaces

“…In the time domain, the time of arrival of the waveform detected by sensor array at known locations is used to determine the acoustic emission source location, through applying equations (7) and (11). All 11 impact points are excited several times to evaluate the repeatability of the measurements and to minimize experimental uncertainty.…”

“…Thus they are widely used in non-destructive Structural Health Monitoring (SHM) of plate structures as they are scattered and the relf4ected energy captured allows an estimation of the type and size of the damage encountered [9]. Here PZT based transducers are widely used due to low cost, reliability and robustness -but they show key limitations when electromagnetic Interference (EMI) is present and remote monitoring is required [10,11,12]. Thus they are not sufficiently versatile for measurements under more adverse circumstances, for example in remote monitoring applications where long cable lengths between the transducer and the receiver are used and EMI effects and 'signal fade' are seen over these over long distances.…”

Fibre Bragg Grating-Based Acoustic Sensor Array for Improved Condition Monitoring of Marine Lifting Surfaces

“…Despite being adequate and reliable, these conventional techniques are not suitable for real-time, in situ assessment of structures. These limitations can be overcome by using electrical-resistance strain gauges [2,8], acoustic emission [9,10], or optical fiber sensors [11][12][13]. The advantages associated with optical fiber sensors, over conventional monitoring techniques, include their immunity to electromagnetic interference; their small size and lightweight construction; and the access they facilitate to different measurements, such as strain, temperature, vibration, and specified chemicals.…”

Stress Monitoring for Anchor Rods System in Subway Tunnel Using FBG Technology

“…accelerometers, dynamic strain gauges, and pressure sensors) have been successfully commercialized for monitoring civil engineering structures (e.g. [8][9][10]). Recent research suggests that structural integrity can be assessed by continuously monitoring structural vibration (e.g.…”

Novel fiber optic accelerometer system using geometric moiré fringe