TUM at AAAS in Washington: Materials with self-healing powers

February 14, 2016

Bridges, tunnels and roads: Concrete is the main component of our infrastructure. And when the structural elements need to be repaired, it often leads to long traffic jams. At the Annual Meeting of the AAAS (American Association for the Advancement of Science) in Washington, D.C., Prof. Christian Grosse from the Technical University of Munich (TUM) and other experts talked about smart materials for sustainable infrastructure.

Small cracks can form in concrete due to permanent loading or variations in temperature. As Prof. Christian Grosse from the Chair of Non-destructive Testing (NDT) at TUM explains, the cracks do not usually pose any direct threat to the stability of structures: "However, water and salts can penetrate the concrete and damage the affected components."

Three healing mechanisms

Repairing infrastructure is expensive and can result in long traffic jams. In the EU research project HealCON, an international team of researchers is working toward the development of concrete that can repair itself. The scientists are examining three different self-healing mechanisms.Looking into concrete

Grosse and his colleagues specialize in testing how well these healing agents work in individual cases. They use non-destructive testing methods to do this, for example acoustic emission technology.

Pressure is exerted on a concrete block that contains one of the healing agents. When the concrete cracks, acoustic waves are generated, which are measured using sensors. By means of the measurement data, the scientists not only can establish that cracks have formed but also can determine precisely where.

Following the healing process, the researchers carry out the experiment again. If the healing process was not successful, there are few new acoustic waves, as the cracks are still there. If the cracks have been filled, new ones arise - but in different places. "The localization of the crack sounds clearly indicates whether a remedy works or not," explains Grosse.

Testing structural components using ultrasound

While acoustic emission analysis is suitable for laboratory applications, a different technology must be used for real-world on-site testing of large concrete components. "In this case, we use continuous ultrasound pulses," explains Grosse.

The scientists measure the time required for ultrasound pulses to propagate through the concrete. Cracks prevent the transmission of the signal, and as a result it needs more time to traverse the material. If the cracks have been filled, the pulses go through the material faster again. The strength of the signal also declines noticeably in the case of damaged material.

Promising results have already been obtained from experiments carried out under laboratory conditions. The next stage will involve the use of the self-healing material in actual building components (sections of bridges or tunnels). After this, the technologies will have to be adapted for use in standard concrete production and construction methods.

The HealCON project is being funded as part of the European Union's 7th Framework Programme for Research and Technological Development (FP7/2007-2013) under grant agreement number 309451. The project is coordinated by Ghent University (Belgium).
Highresolution photos: https://mediatum.ub.tum.de/?id=1291076#1291076

Video on Youtube: https://www.youtube.com/watch?v=SzhWM_oWVCg


Prof. Dr. Christian Grosse
Centre for Building Materials
Chair of Non-destructive Testing
Tel: +

Session on AAAS:



Prof. Mo Li, University of California, Irvine: "Sustainable Infrastructure Materials with Repeatable Self-Healing Capacity" http://engineering.uci.edu/users/mo-li

Prof. Erik Schlangen, Delft University of Technology: "Self-Healing Concrete (with Bacteria) and Self-Healing Asphalt (with Steel Wool)" http://www.citg.tudelft.nl/en/about-faculty/departments/structural-engineering/sections/materials-an...

Prof. Christian Grosse: "Sensing and Monitoring of Structures" http://www.professoren.tum.de/en/grosse-christian/

Discussant: Prof. Christoph Reinhart, Massachusetts Institute of Technology https://architecture.mit.edu/faculty/christoph-reinhart

Technical University of Munich (TUM)

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