Repair of Bridge Girder Damaged by Impact Loads with Prestressed CFRP Sheets |
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Authors: | Yail J Kim Mark F Green Garth J Fallis |
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Affiliation: | 1Assistant Professor, Dept. of Civil Engineering, North Dakota State Univ., Fargo, ND 58105; formerly, Postdoctoral Fellow, Dept. of Civil Engineering, Queen’s Univ., Kingston, ON, Canada K7M 1B5. E-mail: jimmy.kim@ndsu.edu 2Professor, Dept. of Civil Engineering, Queen’s Univ., Kingston, ON, Canada K7M 1B5. E-mail: greenm@ce.queensu.ca 3Vice President, Vector Construction Group, Winnipeg, MB, Canada. E-mail: garthf@vectorgroup.com
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Abstract: | A sound repair on a 40 year old four-span prestressed concrete girder bridge is performed with an innovative strengthening method using prestressed carbon fiber reinforced polymer (CFRP) sheets. In fact, this application is the first North American field application of its type. An adequate repair design is conducted based on the American Association of State Highway and Transportation Officials Load Resistance Factor Design (AASHTO LRFD) and the Canadian Highway Bridge Design Code. To ensure the feasibility of the site application using prestressed CFRP sheets, tests are conducted and closed-form solutions are developed to investigate the behavior of the anchor system that is necessary for prestressing the CFRP sheets. A full-scale finite-element analysis (FEA) is performed to investigate the flexural behavior of the bridge in the undamaged, damaged, and repaired states. The AASHTO LRFD exhibits conservative design properties as compared to the FEA results. The repaired bridge indicates that the flexural strength of the damaged girder has been fully recovered to the undamaged state, and the serviceability has also been improved. An assessment based on the AASHTO rating factor demonstrates the effectiveness of the repair. |
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Keywords: | Bridges girder Bridge decks Rehabilitation Fiber reinforced polymers Prestressing Impact loads |
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