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Fiber-Reinforced Polymer (FRP)

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Problem: Improperly maintained aluminum overhead sign structures create hazards

Overhead sign structures perform a valuable service to the traveling public. They support the signs that inform drivers well before any action is required, thereby making travel safer. If these structures are not properly maintained, however, they can collapse onto the roadway below and create serious driving hazards.

How can the collapse of sign structures be prevented?

The best insurance for preventing the collapse of overhead sign structures is a comprehensive inspection program. When the New York State Department of Transportation (DOT) launched a sign inspection program in 2000, it found that 10 percent of the State's overhead sign structures were damaged. The most common problem was fatigue cracking in the welds connecting the diagonals and the main chords of the sign structure, with some joints totally severed.

What causes cracks in sign structures?

The causes of cracks are difficult to determine and may stem from several factors. Lack of inspection during fabrication can yield poor-quality joint welds. Insufficient construction supervision may result in internal stresses in an overhead sign structure before the sign is attached. The greatest contributor may be that fatigue design was not a code requirement when many trusses were designed in the 1960s.

Solution: Fiber-reinforced polymers repair overhead sign structures quickly and economically

Fiber-reinforced polymer (FRP) composite materials have the potential to revolutionize the repair of sign structures with cracked secondary support members. The Federal Highway Administration (FHWA) has researched the use of FRP for more than 20 years, and FRP has been used on a variety of bridges and other highway structures.

Using FRPs to repair cracked overhead sign structures represents one of the latest applications of these strong and durable materials in maintaining the Nation's aging highway infrastructure. FRPs can provide structural integrity to overhead sign supports and prevent them from failing.

How is FRP used to repair overhead sign structures?

The FRP repair method is relatively quick and economical. It is accomplished by cleaning the damaged area of the sign support thoroughly and wrapping FRP around it. Repairs can be done in place, with only the lanes below the repair area blocked off. A typical repair takes three workers 3 hours to complete, at an estimated cost of $3,000 per joint.

Successful Applications: Research shows FRP repairs are as strong and as durable as welded joints in tension.

This is recommended, however, only for secondary members. The State should continue to inspect and monitor the repairs to ensure safe performance of the sign structures.

The New York State and Utah DOTs collaborated on a research program to study the feasibility of using FRP to repair overhead sign structures. Samples of cracked joints were salvaged from overhead sign structures that had been taken out of service. The samples were wrapped with FRP and sent to the University of Utah for tensile strength and fatigue tests. Results showed that the repaired joints were as strong and durable as if they had been fully welded. As a result of the research, the New York State DOT has developed a specification for using FRP in overhead sign repair. The specification covers restoration of the tensile capacity of secondary sign structural members, such as internal truss diagonals, and not main members, such as longitudinal truss chords. The specification has been approved for a 5-year lifespan with annual inspections of the repair.

Deployment Statement

Wrapping FRP around overhead sign supports can prevent failure and lengthen the service life, improve the structural integrity, and repair cracks in the supports.

Deployment Goal

By 2010, 80 percent of States that have cracking problem in their sign trusses will have used FRP to repair and lengthen the service life of the trusses.

Deployment Status

FRP technology has demonstrated its cost effectiveness in structural repairs and strengthening and will contribute to increasing the service life of transportation infrastructure.

Additional Resources

Additional information about FRPs is available at http://aashtotig.org/?siteid=57&pageid=699.
To learn more about AASHTO-TIG's approved technologies, visit http://tig.transportation.org.

For More Information Contact:

Benjamin Tang, FHWA Office of Infrastructure
benjamin.tang@fhwa.dot.gov, 202-366-4592

Lou Triandafilou, FHWA Resource Center
lou.triandafilou@fhwa.dot.gov, 410-962-3648

Harry L. White
hwhite@dot.state.ny.us, 518-485-7254

To request additional copies of this publication, contact:

TaMara McCrae
FHWA Corporate Research, Technology, and Innovation Management
Phone: 202-493-3382
E-mail: tamara.mccrae@fhwa.dot.gov

Priority, Market-Ready T&I List

• 511 Traveler Information
• Accelerated Construction Technology Transfer (ACTT)*
• Adaptive Control Software Lite (ACS-Lite)
• Air Void Analyzer (AVA)*
• Asset Management Guide
• Bridge and Tunnel Security
• Cable Median Barriers*
• Construction Analysis for Pavement Rehabilitation Strategies (CA4PRS)
• Continuous Flight Auger (CFA) Piles
• DYNASMART-P
• Expanded Polystyrene (EPS) Geofoam
• Fiber-Reinforced Polymer (FRP)*
• Highway Economic Requirements System, State Version (HERS-ST)
• Improved Decisionmaking Using Geographic Information Systems
• ITS Deployment Analysis System (IDAS)
• Load and Resistance Factor Design (LRFD) and Rating of Structures
• Pavement Smoothness Methodologies
• PedSafe
• Prefabricated Bridge Elements and Systems (PFBES)*
• Road Safety Audits (RSA)*
• Roundabouts
• Rumble Strips
• Transportation, Economics, and Land Use System (TELUS)
• USLIMITS

Deployment Links

• Highways for Life
• FHWA Resource Center
• Local and Tribal Technical Assistance Program

Other Links

• AASHTO 2006 Focus Technologies
• AASHTO Additionally Selected Technologies