2013
DOI: 10.4028/www.scientific.net/kem.558.522
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Optical Fibres for Distributed Corrosion Sensing - Architecture and Characterisation

Abstract: This paper summarises recent work conducted on the development of exposed core microstructured optical fibres for distributed corrosion sensing. Most recently, exposed-core fibres have been fabricated in silica glass, which is known to be reliable under a range of processing and service environments. We characterise the stability of these new silica fibres when exposed to some typical sensing and storage environments. We show the background loss to be the best achieved to date for exposed-core fibres, while th… Show more

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Cited by 5 publications
(6 citation statements)
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“…Nevertheless, since the outside diameter does not contribute in the calculation of C given by the Fitt model (Eq. (7)), it was still possible to predict the pressure needed, fabricate this asymmetric structure, and create a fiber useful for the intend application [50].…”
Section: Predicting Fiber Draw Parametersmentioning
confidence: 99%
“…Nevertheless, since the outside diameter does not contribute in the calculation of C given by the Fitt model (Eq. (7)), it was still possible to predict the pressure needed, fabricate this asymmetric structure, and create a fiber useful for the intend application [50].…”
Section: Predicting Fiber Draw Parametersmentioning
confidence: 99%
“…20 Two different types of microstructured optical fibers were used in these experiments. The first is an exposed-core microstructured optical fibers (ECF) that has a suspended micron-scale core partially exposed to the external environment [21][22] ( Figure 2, left), which allows consistent washing, drying and refilling of the biosensor during its use. The second type of fiber has air holes within its cross section and is known as a suspended-core microstructured optical fibers (SCF), 23 see Figure 2 right.…”
Section: Introductionmentioning
confidence: 99%
“…The sensors development and monitoring techniques had been improved and the inclusion of the durability parameters has been an upgrade, to promote a better damage characterization and an accurate structural lifetime prediction [97]. A significantly quantity of optical sensors has been developed and implemented, motivated by the better signal to noise ratio, good sensitivity, electromagnetic interference immunity, multiplexing possibility, low size and weight, robustness, low attenuation on remote monitoring, and no electrical power needed at the measuring point, among other advantages [52,98,99].…”
Section: New Perspectives For Shmmentioning
confidence: 99%