Field monitoring of RC-structures under dynamic loading using distributed fiber-optic sensors
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Authors
Broth, Zachary
Hoult, Neil A.
Date
2020-05-20
Type
journal article
Language
en
Keyword
Fiber-optic sensors , Distributed strain measurement , Dynamic loading , Reinforced concrete (RC) , Crack widths , Deflections , Monitoring , Serviceability
Alternative Title
Abstract
The ability to properly assess existing reinforced concrete (RC) structures provides an opportunity to prevent costly rehabilitations or replacements and aid in the optimization of future designs. Distributed fiber-optic sensing (DFOS) is a promising option in the assessment of these complex structures. Previous uses of this technology, however, have been limited to static measurements, prohibiting the assessment of structures exposed to dynamic loads. This research intends to assess the dynamic sensing capabilities of a DFOS system and, in turn, improve the current understanding of the dynamic behavior of an existing RC beam tested in situ through a case study. Based on the data provided by the dynamic distributed fiber-optic sensors (DDFOS), dynamic measurements of distributed strains, distributed deflections, and crack widths can all be provided. Further details regarding the use of the DDFOS system in assessment, including the determination of support conditions and dynamic response factors, are presented and discussed.
Description
This is the accepted manuscript of Broth, Z. E., & Hoult, N. A. (2020). Field monitoring of RC-structures under dynamic loading using distributed fiber-optic sensors. Journal of Performance of Constructed Facilities, 34(4), 04020070. The publisher's version is available at https://doi.org/10.1061/(ASCE)CF.1943-5509.0001488.
Citation
Broth, Z. E., & Hoult, N. A. (2020). Field monitoring of RC-structures under dynamic loading using distributed fiber-optic sensors. Journal of Performance of Constructed Facilities, 34(4), 04020070
Publisher
American Society of Civil Engineers