Experimental assessment of an RFID-based crack sensor for steel structures
The use of welded steel cover plates had been a common design practice to increase beam section capacity in regions of high moment for decades. Many steel girder bridges with cover plates are still in service. Steel girder bridges are subject to cyclic loading, which can initiate crack formation at...
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| Published in | Smart materials and structures Vol. 26; no. 8; pp. 85035 - 85047 |
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| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
IOP Publishing
01.08.2017
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0964-1726 1361-665X |
| DOI | 10.1088/1361-665X/aa7cd8 |
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| Abstract | The use of welded steel cover plates had been a common design practice to increase beam section capacity in regions of high moment for decades. Many steel girder bridges with cover plates are still in service. Steel girder bridges are subject to cyclic loading, which can initiate crack formation at the toe of the weld and reduce beam capacity. Thus, timely detection of fatigue cracks is of utmost importance in steel girder bridge monitoring. To date, crack monitoring methods using in-house radio frequency identification (RFID)-based sensors have been developed to complement visual inspection and provide quantitative information of damage level. Offering similar properties at a reduced cost, commercial ultra-high frequency (UHF) passive RFID tags have been identified as a more financially viable option for pervasive crack monitoring using a dense array of sensors. This paper presents a study on damage sensitivity of low-cost commercial UHF RFID tags for crack detection and monitoring on metallic structures. Using backscatter power as a parameter for damage identification, a crack sensing system has been developed for single and multiple tag configurations for increased sensing pervasiveness. The effect on backscatter power of the existence and stage of crack propagation has been successfully characterized. For further automation of crack detection, a damage index based on the variation of backscatter power has also been established. The tested commercial RFID-based crack sensor contributes to the usage of this technology on steel girder bridges. |
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| AbstractList | The use of welded steel cover plates had been a common design practice to increase beam section capacity in regions of high moment for decades. Many steel girder bridges with cover plates are still in service. Steel girder bridges are subject to cyclic loading, which can initiate crack formation at the toe of the weld and reduce beam capacity. Thus, timely detection of fatigue cracks is of utmost importance in steel girder bridge monitoring. To date, crack monitoring methods using in-house radio frequency identification (RFID)-based sensors have been developed to complement visual inspection and provide quantitative information of damage level. Offering similar properties at a reduced cost, commercial ultra-high frequency (UHF) passive RFID tags have been identified as a more financially viable option for pervasive crack monitoring using a dense array of sensors. This paper presents a study on damage sensitivity of low-cost commercial UHF RFID tags for crack detection and monitoring on metallic structures. Using backscatter power as a parameter for damage identification, a crack sensing system has been developed for single and multiple tag configurations for increased sensing pervasiveness. The effect on backscatter power of the existence and stage of crack propagation has been successfully characterized. For further automation of crack detection, a damage index based on the variation of backscatter power has also been established. The tested commercial RFID-based crack sensor contributes to the usage of this technology on steel girder bridges. |
| Author | Martínez-Castro, R E Bansal, R Nicholas, J Jang, S |
| Author_xml | – sequence: 1 givenname: R E surname: Martínez-Castro fullname: Martínez-Castro, R E organization: University of Connecticut Department of Civil and Environmental Engineering, 261 Glenbrook Rd, Unit 3037, Storrs, CT 06269-3037, United States of America – sequence: 2 givenname: S surname: Jang fullname: Jang, S email: shinae.jang@uconn.edu organization: University of Connecticut Department of Civil and Environmental Engineering, 261 Glenbrook Rd, Unit 3037, Storrs, CT 06269-3037, United States of America – sequence: 3 givenname: J surname: Nicholas fullname: Nicholas, J organization: University of Connecticut Department of Civil and Environmental Engineering, 261 Glenbrook Rd, Unit 3037, Storrs, CT 06269-3037, United States of America – sequence: 4 givenname: R surname: Bansal fullname: Bansal, R organization: University of Connecticut Department of Electrical and Computer Engineering, 371 Fairfield Way, Unit 4157, Storrs, CT 06269-4157, United States of America |
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| Cites_doi | 10.1177/1045389X06059957 10.1109/TAP.2015.2403875 10.1109/FENDT.2014.6928296 10.1016/j.sna.2012.11.007 10.1364/OL.30.000370 10.1016/S0924-4247(01)00605-7 10.1109/JSEN.2015.2457455 10.3390/buildings2040456 10.1016/j.ijpe.2007.05.004 10.1109/JSEN.2013.2240155 10.1260/1369-4332.14.1.47 10.1088/0964-1726/13/3/020 |
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| References | Dexter R J (2) 2013 11 13 16 18 Fisher J W (4) 1974 19 Tiernan T C (10) 2000 Koňár R (9) 2014; 14 Chen G (14) 2009 Dobkin D M (22) 2013 1 Anon (5) 2004; 69 Hofer B (15) 1988 6 Ihn J (12) 2004; 13 7 8 Mertz D (3) 2015; 12 Dhital D (17) 2010; 30 20 21 |
| References_xml | – ident: 11 doi: 10.1177/1045389X06059957 – year: 1974 ident: 4 publication-title: Fatigue Strength of Steel Beams With Welded Stiffeners and Attachments (NCHRP Report 147) – year: 2013 ident: 22 publication-title: The RF in RFID: UHF RFID in Practice – ident: 21 doi: 10.1109/TAP.2015.2403875 – ident: 7 doi: 10.1109/FENDT.2014.6928296 – year: 2000 ident: 10 publication-title: United States Patent – ident: 20 doi: 10.1016/j.sna.2012.11.007 – ident: 13 doi: 10.1364/OL.30.000370 – volume: 12 year: 2015 ident: 3 publication-title: Steel Bridge Design Handbook Design for Fatigue (FHWA-HIF-16-002) – ident: 8 doi: 10.1016/S0924-4247(01)00605-7 – ident: 18 doi: 10.1109/JSEN.2015.2457455 – ident: 1 doi: 10.3390/buildings2040456 – year: 2009 ident: 14 publication-title: Coaxial Cable Sensors and Sensing Instrument for Crack Detection in Bridge Structures—Phase I : Field Qualification/Validation Planning (C-06-34) – year: 2013 ident: 2 publication-title: Manual for Repair and Retrofit of Fatigue Cracks in Steel Bridges (FHWA-IF-13-020) – volume: 30 start-page: 244 year: 2010 ident: 17 publication-title: J. Korean Soc. Nondestruct. Test. – ident: 6 doi: 10.1016/j.ijpe.2007.05.004 – ident: 16 doi: 10.1109/JSEN.2013.2240155 – ident: 19 doi: 10.1260/1369-4332.14.1.47 – volume: 14 start-page: 42 year: 2014 ident: 9 publication-title: Manuf. Technol. – year: 1988 ident: 15 publication-title: United States Patent – volume: 69 start-page: 74436 year: 2004 ident: 5 publication-title: Fed. Regist. – volume: 13 start-page: 609 issn: 0964-1726 year: 2004 ident: 12 publication-title: Smart Mater. Struct. doi: 10.1088/0964-1726/13/3/020 |
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| SubjectTerms | backscatter power crack detection damage index steel bridges structural health monitoring ultra-high frequency RFID |
| Title | Experimental assessment of an RFID-based crack sensor for steel structures |
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