Flexural Behavior of Unbonded Posttensioned Concrete Members Strengthened Using External FRP Composites
Publication: Journal of Composites for Construction
Volume 17, Issue 2
Abstract
This paper presents the results of an experimental study for evaluating the use of external fiber-reinforced polymer (FRP) laminates for strengthening unbonded posttensioned concrete members. Twenty-four full-scale simply supported beam and slab specimens reinforced with an internal unbonded tendon system and strengthened using external FRP composites were tested. An additional 12 companion bonded prestressed concrete (PC) and reinforced concrete (RC) specimens were also tested for comparison. The test parameters included area of internal tension reinforcement, area of external FRP reinforcement, span-to-depth ratio of the member (slab, beam), and profile of the unbonded tendons. It was found that the use of FRP laminates increases the load capacity and postcracking stiffness of unbonded members. The increase in load capacity was accompanied by a reduction in the deformation capacity. Failure of the specimens occurred either by concrete crushing or by FRP debonding or FRP fracture. No distinct difference beyond expectation was observed between the flexural responses of FRP-strengthened unbonded PC and those of bonded PC or RC systems. Provided a method is available for calculating the strains or stresses in the unbonded tendons at ultimate flexural strength, the same standard guidelines for designing the FRP system for flexural strengthening of RC and bonded PC members can be applied to unbonded members.
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Acknowledgments
The authors would like to acknowledge FyFe Europe for providing the CFRP reinforcement and Darwiche Haddad for assisting in the construction of the specimens. Acknowledgment is also due to the Faculty of Engineering and Architecture at the American University of Beirut for providing the laboratory test facilities.
References
American Concrete Institute. (2011). “Building code requirements for reinforced concrete and commentary.”, Farmington Hills, MI.
American Concrete Institute. (2008). “Guide for the design and construction of externally bonded FRP systems for strengthening concrete structures.”, Detroit.
ASTM. (2009). “Standard specifications for deformed and plain carbon-steel bars for concrete reinforcement.”, West Conshohocken, PA.
El Meski, F. (2012). “Flexural behavior of unbonded post-tensioned concrete members strengthened using external FRP composites: Experimental evaluation and analytic modeling.” Ph.D. dissertation, Dept. of Civil and Environmental Engineering, American Univ. of Beirut, Beirut, Lebanon.
Harajli, M. H. (2006). “On the stress in unbonded tendons at ultimate: Critical assessment and proposed changes.” ACI Struct. J., 103(6), 803–812.
Menegotto, M., and Pinto, P. E. (1973). “Method of analysis for cyclically loaded reinforced concrete plane frames.” IABSE preliminary rep. for symp. on resistance and ultimate deformability of structures acted on well-defined repeated loads, Lisbon, 15–22.
Naaman, A. E., Burns, N., French, C., Gamble, W. L., and Mattock, A. H. (2002). “Stresses in unbonded prestressing tendons at ultimate: Recommendation.” ACI Struct. J., 99(4), 518–529.
Warwaruk, J., Sozen, M. A., and Siess, C. P. (1962). “Investigation of prestressed concrete for highway bridges. III: Strength and behavior in flexure of prestressed beams.”, Engineering Experiment Station, Univ. of Illinois, Urbana, IL.
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© 2013 American Society of Civil Engineers.
History
Received: May 27, 2012
Accepted: Aug 16, 2012
Published online: Aug 24, 2012
Published in print: Apr 1, 2013
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