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FRP Library
- Reports
- CFRP Repair of Impact-Damage Bridge Girders (BC354-55)
- Volume 1, Structural Evaluation of Impact Damaged Prestressed Concrete I Girders Repaired with FRP Materials
- Volume 2, Inspection of FRP Composite Repairs Using Infrared Thermography
- Capabilities of Diagonally-cracked Girders Repaired with CFRP Final Report SPR 619 (PDF, 40 mb)
- Design, Construction, and Maintenance of Bridge Decks Utilizing GFRP Reinforcement (PDF, 0.3 mb)
- Environmental Durability of Reinforced Concrete Deck Girders Strengthened for Shear with Surface-Bonded Carbon Fiber-Reinforced Polymer (.pdf, 27 mb)
- FHWA-KS-04-1 "Performance Investigation of a Fiber Reinforced Composite Honeycomb Deck for Bridge Applications" Final Report, Ondrej Kalný, M.S.C.E., and Robert J. Peterman, Ph.D., P.E., Kansas State University. February 2005.
- Part 1 of Final Report (PDF, 1 mb)
- Part 2 of Final Report (PDF, 5 mb)
- Appendices (PDF, 12 mb)
- Summary Report (PDF, 0.1 mb)
- FRP Research for Hawaii DOT by University of Hawaii
- A Guide to Fiber-Reinforced Polymer Trail Bridges
- A Novel Technique For Stiffening Steel Structures, Ayman M. Okeil, Ph.D., P.E., Yilmaz Bingol, Ph.D., Md. Rubiat Ferdous; FHWA-LA-08-441. Copies are available from Lou Triandafilou, 410-962-3648
- Performance of Bridge Decks with Glass Fiber-reinforced Polymer Bars as Top Mat of Reinforcement: The purpose of this research was to investigate the performance of glass fiber reinforced polymer (GFRP) bars as reinforcement for concrete decks. Today's rapid bridge deck deterioration is calling for a replacement for steel reinforcement. The advantages of GFRP such as its high tensile strength, light weight, and resistance to corrosion make it an attractive alternative to steel. The deck of one end-span of the Gills Creek Bridge was constructed with GFRP bars as the top mat and epoxy-coated steel bars as the bottom mat. Live load tests were performed in 2003, shortly after completion of construction, and again in 2004. In addition, tests were performed on the deck of the opposite end-span, which had all epoxy-coated steel reinforcing. The results of these tests were used to evaluate the girder distribution factors and impact factors of a GFRP reinforced bridge deck. In addition, a comparison of the results from the two test periods gives an indication of any changes in strains in the GFRP bars and if the deck is behaving differently than when first installed. The results were compared to the design standards specified by the American Concrete Institute in the Guide for the Design and Construction of Concrete Reinforced with FRP Bar to determine if the stresses in the deck were within the specified limits. The performances of the two end-spans were compared to determine if the GFRP reinforcement had any significant influence on overall bridge behavior. There were no significant differences in the behavior of the deck after 1 year of service and there was no visible cracking. The behavior of the two end-spans was similar, and the measured girder distribution factors were less than the AASHTO design recommendations. The impact factors were less than design values for the 2003 tests but higher than design values for the 2004 tests. Stresses in the GFRP reinforcing bars were much less than the design allowable stress and did not change significantly.
- Preliminary Quality Control/Quality Assurance Standards (Criteria) for Inspection and Testing of FRP Bars (PDF, 0.3 mb)
- Papers
- Composite Bridge Column Retrofitting in California
by Pat Hipley, CalTrans
- Composite Materials and Structures: Science, Technology and Applications
Alexander E. Bogdanovich and Robert L. Sierakowski American Society of Mechanical Engineers Reprint No. AMR280
- Design, Fabrication, Construction, and Testing of an FRP Superstructure (SR-134) (.pdf, 3 mb)
NYDOT
- Evaluation of Post-Tension Strengthened Steel Girder Bridge Using FRP Bars
- Fiber Reinforced Polymer Composites - Applications in the USA
Published in the First Korea/U.S.A. Road Workshop Proceedings, January 28-29, 1997
- FRP Composites Technology Brings Advantages to the American Bridge Building Industry
Proceedings published in the 2nd International Workshop on Structural Composites for Infrastructure Applications, Cairo, Egypt; December 16-18, 2003
- IBRC Program Information
- Reconstruction of Bridges at Tangier Island, Virginia and Installation of Zellcomp Composite FRP Deck system by Rudy Maruri
- A Successful Beginning for Fiber Reinforced Polymer (FRP) Composite Materials in Bridge Applications
Published in the FHWA Proceedings, International Conference on Corrosion and Rehabilitation of Reinforced Concrete Structures, December 7-11, 1998, Orlando, FL.
- Test of Cracked Prestressed Concrete T-Beam Retrofitted for Shear using CFRP L-Shaped Plates
- References
- Presentations
- Manufacturing
- Testing Reports
- Newsletters
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More Information
Contact
Lou Triandafilou
Resource Center (Baltimore) 410-962-3648 E-mail Lou
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