Ricerca CERCA

In-line Long Period Grating and Brillouin Scattering Fiber Optic Sensors for Strain, Temperature, Chloride Concentration, and Steel Mass Loss Measurement in Bridge Applications

estero Tesi all'estero


Descrizione Corrosion is the main reason for costly maintenance of aging transportation infrastructure in the U.S. Since 2008, the PIs group has developed long period fiber grating (LPFG) sensors for point strain and steel mass loss measurements. When attached on a steel bar, a LPFG sensor doped with nano iron/silica particles and polyurethane can monitor the corrosion process of steel. However, the coating of particles with polyurethane was not robust. In addition, chloride concentration is important for the prediction of early corrosion in practice. Compared to grating sensors, Brillouin scattering based sensors have lower spatial resolution but offer a cost-effective solution to the monitoring of large-scale civil infrastructure. Therefore, integrating LPFG sensors into a distributed sensing system for multiple parameter measurements is important in bridge applications. Unlike fiber Bragg grating (FBG) sensors that have been recently applied to civil infrastructure, LPFG sensors and distributed sensing systems are still tested in laboratory. Their packaging is critical in field applications.
An LPFG sensor is an in-line fiber device with its core refractive index changing periodically in the range of 100 m to 1 mm for strain and corrosion monitoring, respectively. The gratings couple light energy between the core/guided mode and the cladding/lossy modes. This coupling condition is sensitive to the strain applied to the fiber, temperature and refractive index of surrounding medium (e.g. corrosion effect). Changes in these parameters can result in significant shifting of an attenuation band and resonant wavelength. Changes in strain and temperature also vary the density of the fiber and thus stimulate Brillouin scattering in pulse pre-pump Brillouin optical time domain analysis (PPP-BOTDA). With both LPFG and PPP-BOTDA measurements, strain and temperature at the location of gratings could be discriminated simultaneously.
This project aims to: (1) Develop a physically and optically protected LPFG strain sensor that is hermetically packaged in a fused silica capillary tube, (2) Develop a Fe-C coated LPFG sensor for life-cycle corrosion monitoring (chloride ion and mass loss) of nearby steel members, (3) Understand how many LPFG sensors of different types and wavelengths can be multiplexed to measure multiple parameters for the monitoring of large-scale bridges, and (4) Understand potential interference between the LPFG sensor interrogation and the PPP-BOTDA measurement.

Conoscenze richieste English speaking

Scadenza validita proposta 26/04/2020      PROPONI LA TUA CANDIDATURA

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