Retrofit buildings with carbon fiber to protect from terrorist attack

Retrofit buildings with carbon fiber to protect from terrorist attack Washington: A researcher at the University of Missouri may have discovered a way to protect buildings from a terrorist attack - retrofit buildings with carbon fiber.





Sarah Orton, assistant professor of civil engineering in the MU College of Engineering, has focused on using carbon fiber reinforced polymer (CFRP), a fabric that can carry 143,000 pounds of force per square inch and has various applications to strengthen reinforced concrete buildings.





“CFRP has been used in places like California since the 1980s to protect buildings from earthquakes, but it has so many applications,” said Orton.





“Now, we have to worry about damage caused by attacks. This fabric can be a great tool to protect people in threatened buildings,” she said.
To protect a building from an extreme event, CFRP can be used to increase the bending capacity of walls or columns.





Previously, Orton invented an anchor that can be embedded in the column or joint to make CFRP more effective. In that work, she found that the anchors allow the CFRP to reach its full tension strength rather than separating from the concrete at only about half its strength.

CFRP can be used to protect an entire wall from an explosion. To study the effectiveness of different ways of applying CFRP, Orton worked with the U.S. Army Engineer Research and Development Center (ERDC) to detonate explosives near CFRP-reinforced concrete slabs.





She found that CFRP, when layered and anchored, provided a significant amount of protection. However, she said that applying additional protection to the front of the concrete slab, such as a steel plate, would enhance the slab’s performance.





“This is a really useful material. I continue to be fascinated by the material’s strength and applications. Retrofitting buildings with CFRP will help protect people from attacks and potentially collapse of the building,” she said.





The study will be published in a special publication of the American Concrete Institute.



ANI