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“Sensing skin” quickly detects cracks, damage in concrete structures

By R&D Editors | June 23, 2014

The “sensing skin” technology detects cracks in concrete (as in top image) and reports when and where the damage took place (as in bottom image). Image: Aku SeppänenResearchers from North Carolina State Univ. and the Univ. of Eastern Finland have developed new “sensing skin” technology designed to serve as an early warning system for concrete structures, allowing authorities to respond quickly to damage in everything from nuclear facilities to bridges.

“The sensing skin could be used for a wide range of structures, but the impetus for the work was to help ensure the integrity of critical infrastructure such as nuclear waste storage facilities,” says Dr. Mohammad Pour-Ghaz, an assistant professor of civil, construction and environmental engineering at NC State and co-author of a paper describing the work.

“The idea is to identify problems quickly so that they can be addressed before they become big problems and—in the case of some critical infrastructure—so that public safety measures can be implemented,” Pour-Ghaz says.

The skin is an electrically conductive coat of paint that can be applied to new or existing structures. The paint can incorporate any number of conductive materials, such as copper, making it relatively inexpensive.

Electrodes are applied around the perimeter of a structure. The sensing skin is then painted onto the structure, over the electrodes. A computer program then runs a small current between two of the electrodes at a time, cycling through a number of possible electrode combinations.

Every time the current runs between two electrodes, a computer monitors and records the electrical potential at all of the electrodes on the structure. This data is then used to calculate the sensing skin’s spatially distributed electrical conductivity. If the skin’s conductivity decreases, that means the structure has cracked or been otherwise damaged.

The researchers have developed a suite of algorithms that allow them to both register damage and to determine where the damage has taken place.

“Determining the location of the damage based on the measured electrode potentials is a challenging mathematical problem,” says Dr. Aku Seppänen, an Academy Research Fellow in the Dept. of Applied Physics at the Univ. of Eastern Finland and co-author of the paper. “We had to develop new computational methods to more reliably determine where the damage is. Ultimately, I think our work represents an advance over previous algorithms in terms of accuracy.”

The researchers have demonstrated the effectiveness and accuracy of the sensing skin on a small scale, using concrete beams less than a meter wide.

“Our next step is to extend this to large geometries,” Pour-Ghaz says. “We want to show that this will work on real-world structures.”

The paper appears online in Smart Materials and Structures.

Source: North Carolina State Univ.

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