Non-destructive testing for optimizing the rehabilitation of rigid pavements

dc.contributor.authorAl-Abbasi, Ali
dc.contributor.examiningcommitteeGhazy, Ahmed (Civil Engineering) Alauddin, Ahammed (Civil Engineering)en_US
dc.contributor.supervisorShalaby, Ahmed (Civil Engineering)en_US
dc.date.accessioned2020-03-18T13:58:22Z
dc.date.available2020-03-18T13:58:22Z
dc.date.copyright2020-03-17
dc.date.issued2020-03-17en_US
dc.date.submitted2020-03-17T23:38:58Zen_US
dc.degree.disciplineCivil Engineeringen_US
dc.degree.levelMaster of Science (M.Sc.)en_US
dc.description.abstractFWD testing was completed on three urban arterial sections and six residential streets prior to and after rehabilitation to select the appropriate layout for FWD testing, establish joint performance threshold values, optimize FWD testing time and cost, and evaluate the effect of asphalt overlays on joint performance parameters. Moreover, the performance of full-depth repairs (FDR) and the incorporation of joint performance at the design stage were studied. Residential streets joint and basin FWD testing was completed to evaluate the structural capacity of residential streets and compare their performance to arterial regional roads. Comparisons between two widely used FWD geophones layouts allowed for the selection of a layout that represents the more critical loading condition on joints. Peak deflections and differential deflections were correlated with load transfer efficiencies to select threshold values for LTEs, peak deflections and differential deflections to trigger rehabilitation at the appropriate time. Statistical testing was used to optimize FWD testing to two load levels instead of four. The study found that asphalt overlays reduce recorded deflections and overestimate computed joints performance parameters. The effect of asphalt overlays was evaluated to establish correction factors, Fasphalt, for each load level to estimate deflections on the concrete surface using deflections obtained from testing on the overlay surface of Pembina Highway. The correction was found to improve the reliability of joint condition evaluation for that site. The study also found that FDRs generally restore the load transfer capacity of joints with good support and mechanical load transfer achieved. Moreover, it was demonstrated that joint performance information can be used at the design stage in the decision-making process to select the location and type of joint repairs. Lastly, residential streets were found to have less load transfer capacity than arterial regional roads and weaker pavement structure. The findings from this study indicated that NDT can be used to evaluate pavement condition, determine layer stiffness for use in rehabilitation design and to improve planning of rehabilitation through timely determination of rehabilitation needs and improvement of the reliability of load transfer efficiency estimate and void detection of PCC joints.en_US
dc.description.noteMay 2020en_US
dc.identifier.citationAl-Abbasi, A. and Shalaby, A. “The Selection of PCC Joint Repair Trigger Values and Void Detection for Concrete Pavements Overlaid with Asphalt,” Airfield and Highway Pavements 2019: Testing and Characterization of Pavement Materials. pp. 332–342, 2019.en_US
dc.identifier.citationAl-Abbasi, A. and Shalaby, A. "Non-Destructive Testing for Optimizing Concrete Pavement Rehabilitation" Transportation Association of Canada Conference: Innovations in Pavement Management, Engineering and Technologies. 2018.en_US
dc.identifier.urihttp://hdl.handle.net/1993/34575
dc.language.isoengen_US
dc.rightsopen accessen_US
dc.subjectFWDen_US
dc.subjectRigid Pavementen_US
dc.subjectFalling Weight Deflectometeren_US
dc.subjectComposite Pavementsen_US
dc.subjectLoad Transferen_US
dc.subjectVoid detectionen_US
dc.subjectPavement rehabilitationen_US
dc.titleNon-destructive testing for optimizing the rehabilitation of rigid pavementsen_US
dc.typemaster thesisen_US
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