Evaluation of a Post-tension Strengthened Steel Girder Bridge Using FRP Rods/Strands Evaluation of a Post-tension Strengthened Steel Girder Bridge Using FRP Rods/Strands

Research Project

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Evaluation of a Post-tension Strengthened Steel Girder Bridge Using FRP Rods/Strands

Repairing bridge with CFRP.

Installation of carbon fiber reinforced polymers (CFRP) post-tensioning bars.

Researcher(s)

Principal investigator: Terry Wipf, 515-294-9501, tjwipf@iastate.edu (project list)

Co-principal investigators:

Other authors: F. Wayne Klaiber, Yoon-Si Lee

Student researcher: Yoon-Si Lee

Project status

Completed

Start date: 11/01/01
End date: 10/31/03

Publications

Report: November 2003, http://www.intrans.iastate.edu/reports/frpposttension.pdf 1.5 mb (*pdf)

Related publications: Strengthening of Steel Girder Bridges Using FRP (2003 Mid-Continent Transportation Research Symposium) August 2003

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Sponsor(s)/partner(s)

Sponsor(s):Iowa Department of Transportation

About the research

Abstract: Many state, county, and local agencies are faced with deteriorating bridge infrastructure composed of a large percentage of relatively short to medium span bridges. In many cases, these older structures are rolled or welded longitudinal steel stringers acting compositely with a reinforced concrete deck. Most of these bridges, although still in service, need some level of strengthening due to increases in legal live loads or loss of capacity due to deterioration. Although these bridges are overstressed in most instances, they do not warrant replacement; thus, structurally efficient but cost-effective means of strengthening needs to be employed. In the past, the use of bolted steel cover plates or angles was a common retrofit option for strengthening such bridges. However, the time and labor involved to attach such a strengthening system can sometimes be prohibitive.

This project was funded through the Federal Highway Administration’s Innovative Bridge Research and Construction program. The goal is to retrofit an existing structurally deficient, three-span continuous steel stringer bridge using an innovative technique that involves the application of post-tensioning forces; the post-tensioning forces were applied using fiber reinforced polymer post-tensioning bars. When compared to other strengthening methods, the use of carbon fiber reinforced polymer composite materials is very appealing in that they are highly resistant to corrosion, have a low weight, and have a high tensile strength.

Before the post-tensioning system was installed, a diagnostic load test was conducted on the subject bridge to establish a baseline behavior of the unstrengthened bridge. During the process of installing the post-tensioning hardware and stressing the system, both the bridge and the post-tensioning system were monitored. The installation of the hardware was followed by a follow-up diagnostic load test to assess the effectiveness of the post-tensioning strengthening system. Additional load tests were performed over a period of two years to identify any changes in the strengthening system with time. Laboratory testing of several typical carbon fiber reinforced polymer bar specimens was also conducted to more thoroughly understand their behavior. This report documents the design, installation, and field testing of the strengthening system and bridge.

2711 S. Loop Drive, Suite 4700, Ames, Iowa 50010-8664
Phone: 515-294-9501 ~ Fax: 515-294-0467
The Bridge Engineering Center is administered by Iowa State University's Institute for Transportation.

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