NetComposites Ltd has transferred the rights and ownership of this website to Gardner Business Media Inc.
On 1st January 2020, NetComposites' media assets including netcomposites.com, newsletters and conferences were transferred to Composites World (Gardner Business Media).
This site is no longer being updated. Please direct all enquiries to firstname.lastname@example.org.
For further details see our joint press release.
Using fibreglass materials, contractors in Springfield have repaired a decaying, 70-year-old bridge in just a few days.
Instead of snarling traffic for two to three weeks while they repaired the crumbling deck, girders and guardrails by conventional methods–laying plywood, tying steel rebar and pouring concrete–the workers used pre-fabricated plates and cages developed by a National Science Foundation (NSF)-supported university-industry partnership to finish the job in a mere five days.
The NSF’s Repair of Buildings and Bridges with Composites Industry-University Cooperative Research Center is based at the University of Missouri at Rolla and North Carolina State University. The Missouri researchers joined with their industry partners and colleagues at the University of Wisconsin at Madison to develop the new construction solution.
The target of the makeover, an old bridge on Farm Road 148 near Springfield, was one of as many as 156,000 U.S. bridges in need of repair. In fact, it was posted, meaning that local officials had imposed a vehicle weight limit due to the dangerous bridge conditions. Now, however, a fresh layer of concrete conceals the technology responsible for the rapid replacement of the bridge’s crumbling deck and guardrails.
“”A key to tackling the challenge of making thousands of deficient bridges in the nation fully operational and safe again is the development of convenient solutions for the rapid construction of long-lasting bridges,”” says Fabio Matta, a Ph.D. candidate in structural engineering who helped develop the new construction system. “”Advanced composites make the margin for improvements exceptional,”” he added.
A small crane can lift and position the enormous plates that now underly the concrete surface of the bridge deck
The fiberglass-polymer composites are strong enough to endure several decades of traffic–and unlike steel, will resist the ravages of salt and other corrosive de-icers for just as long. Due to the lightweight and prefabricated nature of the materials, moreover, workers can put the structures in place quickly, saving both time and commuter headaches.
“”Since its inception in 1998, we have worked with our NSF I/UCRC partners to provide solutions for our ageing infrastructure,”” says Antonio Nanni, director of the Missouri center.
Workers covered the composites with concrete in the final steps of the bridge renovation
“”We have demonstrated the economical and technical feasibility of several very attractive technologies,”” Nanni added. “”Their full deployment will become possible only with the modification of existing codes and standards. It is a long process, but we are seeing light at the end of the tunnel.””
The bridge, renovated with a grant from the U.S. Department of Transportation, was rededicated at the end of last month.
For more information visit: