2023-Sustainable Industrial Processing Summit
SIPS2023 Volume 15. Intl. Symp on Advanced Materials and Modelling of Complex Materials

Editors:F. Kongoli, F. Marquis, N. Chikhradze, T. Prikhna, O. Adiguzel, E. Aifantis, R. Das, P. Trovalusci
Publisher:Flogen Star OUTREACH
Publication Year:2023
Pages:288 pages
ISBN:978-1-998384-00-6 (CD)
ISSN:2291-1227 (Metals and Materials Processing in a Clean Environment Series)
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    INSPECTION AND NON-DESTRUCTIVE EVALUATION OF IMPERFECTIONS IN STRUCTURALLY RETROFITTED REINFORCED CONCRETE ASSETS USING FIBER REINFORCED POLYMERS

    Wael Zatar1;
    1MARSHALL UNIVERSITY, Huntington, United States;
    Type of Paper: Invited
    Id Paper: 401
    Topic: 43

    Abstract:

    Twenty six percent of reinforced and prestressed concrete highway bridges in the United States need repair or replacement. Proper use of available and promising sustainable technologies plays a critical role in the nation’s economy and the safety of the traveling public. Employing fiber-reinforced polymer (FRP) advanced materials has recently been accepted as a rational and sustainable rehabilitation option for structurally deteriorated infrastructure. Despite the advancement in FRP techniques, inspection of its installation presents a significant challenge to its widespread use. To ensure durability and capacity of externally bonded FRP structures, it is critical to evaluate the potential for debonding failure and surface defects. In this study, experimental and theoretical investigations on employing ground-penetrating radar (GPR) and infrared tomography (IRT) methods were carried out to evaluate reinforced concrete bridge deck slabs externally bonded with glass FRP (GFRP), carbon FRP (CFRP), and a combination thereof. Eight externally bonded FRP concrete deck slab specimens were prepared: three with CFRP, four with GFRP, and one with hybrid CFRP/GFRP. Cracks, voids, and debonding were artificially made on the surface of the concrete deck slabs. Test variables include location and size of surface voids, and rebar diameters and debonding. Improved 2-D and 3-D image reconstruction was established. The results showed that the developed software, using the enhanced image reconstruction technique, provide clear images of the FRP-strengthened deck slabs. Test data revealed that the GPR technique could accurately determine rebar diameters, as well as size and location of voids. The GRP, however, could not well predict debonding and cracks. Results obtained from the IRT indicated that it can detect and locate near-surface defects with a good accuracy. The study suggests that the combination of the GPR and IRT techniques can be effectively employed to image internal defects of FRP-strengthened concrete bridges.

    Keywords:

    Energy Efficiency; Nanocomposites; New And Advanced Materials; fiber-reinforced polymers; Inspection; Non-Destructive Evaluation; ground-penetrating radar; infrared tomography

    References:

    [1] ACI PRC-228.3-23: What an Owner Should Know about Nondestructive Testing – Technote, American Concrete Institute (ACI), ACI Committee 228 (2023).
    [2] W.A. Zatar, H.D. Nguyen, H.M. Nghiem, American Concrete Institute Special Publication 346 (2021) 11-30.
    [3] W.A. Zatar, H.D. Nguyen, H.M. Nghiem, Journal of Infrastructure Preservation and Resilience, 1(1) (2020) 1-13.
    [4] W.A. Zatar, H.D. Nguyen, Proceedings of 5th International Conference on Sustainable Construction Materials and Technologies (SCMT5), United Kingdom (2019).

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    Cite this article as:

    Zatar W. (2023). INSPECTION AND NON-DESTRUCTIVE EVALUATION OF IMPERFECTIONS IN STRUCTURALLY RETROFITTED REINFORCED CONCRETE ASSETS USING FIBER REINFORCED POLYMERS. In F. Kongoli, F. Marquis, N. Chikhradze, T. Prikhna, O. Adiguzel, E. Aifantis, R. Das, P. Trovalusci (Eds.), Sustainable Industrial Processing Summit Volume 15 Intl. Symp on Advanced Materials and Modelling of Complex Materials (pp. 91-106). Montreal, Canada: FLOGEN Star Outreach