Infrastructure protectionNew Iowa bridge equipped with damage-detection gauges

Published 26 April 2012

A new Iowa bridge is equipped with sensors which provide a large amount of quantitative information about the bridge’s performance and condition; these gauges take 100 readings a second for corrosion, strain, surface conditions, moisture within the steel arch, and structure movements over time; the bridge is also equipped to monitor the security of the structure and to record surveillance video; it is a structure monitoring model that could be used for other new bridges, including much larger ones

The new bridge over the Iowa River near downtown Iowa Falls is a major upgrade over the 1928 concrete arch structure it replaced last fall, once the longest arch span bridge in the state of Iowa.

The new U.S. Highway 65/Oak Street bridge is stronger. Its foundation is more secure. Its roadway is eighteen feet wider. The steel arch maintains some of the aesthetics of the old bridge. All over the new bridge are gauges, sensors, and other technologies installed by Iowa State University researchers which will be used for continuous, real-time monitoring of the structural health, behavior, and security of the structure.

There are more than 100 individual gauges on the bridge,” said Justin Dahlberg, a research engineer for the Bridge Engineering Center, a part of Iowa State University’s Institute for Transportation.

An Iowa State University release quotes Brent Phares, the interim director of the Bridge Engineering Center, to say that these sensors will provide a large amount of quantitative information about the bridge’s performance and condition. It is a model that could be used for other new bridges, including much larger ones.

These gauges take 100 readings a second for corrosion, strain, surface conditions, moisture within the steel arch, and structure movements over time. The bridge is also equipped to monitor the security of the structure and to record surveillance video.

This is a whole distributed network,” Phares said. “There is an impressive information transfer infrastructure at that bridge.”

The release notes that Iowa State researchers are now working to set up the hardware that will collect data from the bridge gauges. The accompanying software will scan the data and trigger an emergency message to researchers, transportation officials, or police whenever there are unusual readings. The system will also display real-time data readings and video feeds on a website. This phase of the project is expected to be completed by the middle of this summer.

The monitoring project is supported by a grant of $300,000 from the Iowa Department of Transportation. Iowa State engineers have worked on bridge-monitoring projects with the department for the past ten years.

Ahmad Abu-Hawash, the chief structural engineer for the Iowa DOT, said the Iowa Falls project is a prototype for a system that will monitor a new Interstate 74 bridge over the Mississippi River between Bettendorf and Moline, Illinois, when it is eventually constructed.

He also said the Iowa Falls project was a chance to combine various monitoring technologies the department and Iowa State researchers have developed and tested over recent years. And, it gives researchers and engineers the data they need to verify the assumptions used to design a steel arch bridge, which can be more complicated than designing a traditional bridge.

This was a good opportunity to test the concept and work out any bugs,” Abu-Hawash said.

The Iowa Falls project is also unique because the Iowa State researchers had complete access to the bridge during its construction, from the fall of 2010 to fall 2011. This is because the monitoring system was part of the bridge project from the beginning.

This is the first time in all the work we’ve done that a monitoring system was included in the bridge plans,” Phares said. “We’ve never been in the contract documents to this level.”

As a result, the project’s contractor, Cramer & Associates Inc. of Grimes, Iowa, worked closely with the researchers to install all the gauges and sensors. While that resulted in an “inconvenience cost” the contractor charged back to the transportation department, Phares said the fee was far smaller that it would have been to complete the project independently of the bridge contractor.

That special provision put into the original contract documents was extremely valuable,” Phares said. “We didn’t realize how valuable it would be. It gave us such easy access to the bridge when we needed it. And it opened up the lines of communication between the contractor and our team from day zero.”

So, for example, when the construction crew accidently cut through a sensor wire, the contractor contacted Iowa State researchers so it could be fixed.

Now, researchers are hoping this kind of planning process, contracting agreement, and monitoring system can be built into more bridge projects.

I’m not sure how this could have gone any better,” Phares said. “Hopefully, a statement has been made for using this process when other bridges are built in the state.”