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New Meta-Material For Smart Infrastructure!

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New Meta-Material For Smart Infrastructure!

Researchers have developed a new type of concrete material that can generate electricity and even power roadside sensors.

Concept artwork depicting a new metamaterial concrete in use on a highway. Credit: Amir Alavi via Midjourney

Massive use of concrete in our infrastructure projects implies the need for developing a new generation of concrete materials that are more economical and environmentally sustainable, yet offer advanced functionalities.

Researchers believe they can achieve all of these goals by introducing a metamaterial paradigm into the development of construction materials. Amir Alavi, assistant professor of civil and environmental engineering at Pitt, in his work, “Multifunctional Nanogenerator-Integrated Metamaterial Concrete Systems for Smart Civil Infrastructure,” has introduced a new concept for lightweight and mechanically-tunable concrete systems that have integrated energy harvesting and sensing functionality.

This study introduces the use of metamaterials in the creation of concrete, making it possible for the material to be specifically designed for its purpose. Attributes like brittleness, flexibility and shapeability can be fine-tuned in the creation of the material, enabling builders to use less of the material without sacrificing strength or longevity.

This project presents the first composite metamaterial concrete with super compressibility and energy harvesting capability. The material is capable of generating electricity. While it cannot produce enough electricity to send power to the electrical grid, the generated signal will be more than enough to power the roadside sensors. The electrical signals self-generated by the metamaterial concrete under mechanical excitations can also be used to monitor damage inside the concrete structure or to monitor earthquakes while reducing their impact on buildings.

The material is composed of reinforced auxetic polymer lattices embedded in a conductive cement matrix. The composite structure induces contact-electrification between the layers when triggered mechanically. The conductive cement, which is enhanced with graphite powder, serves as the electrode in the system. Experimental studies show that the material can compress up to 15% under cyclic loading and produce 330 μW of power.

Such lightweight and mechanically tunable concrete systems can open a door to the use of concrete in various applications such as shock absorbing engineered materials at airports to help slow runaway planes or seismic base isolation systems. Eventually, these smart structures may even power chips embedded inside roads to help self-driving cars navigate on highways when GPS signals are too weak or LIDAR is not working.

Reference : Kaveh Barri et al, Multifunctional Nanogenerator‐Integrated Metamaterial Concrete Systems for Smart Civil Infrastructure, Advanced Materials (2023). DOI: 10.1002/adma.202211027