MIT Unveils New Material That’s Strongest and Lightest On Earth

  • Researchers from MIT have created a new material that is actually stronger than graphene – making it 10 times stronger than steel, with only five percent of its density.
  • The research has many applications, according to experts, including ones in the fields of architecture, construction, and even filtration.

STRONG AND POROUS

For years, researchers have known that carbon, when arranged in a certain way, can be very strong. Case in point: graphene.

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Graphene, which was heretofore, the strongest material known to man, is made from an extremely thin sheet of carbon atoms arranged in two dimensions. But there’s one drawback: while notable for its thinness and unique electrical properties, it’s very difficult to create useful, three-dimensional materials out of graphene.

Now, a team of MIT researchers discovered that taking small flakes of graphene and fusing them following a mesh-like structure not only retains the material’s strength, but the graphene also remains porous. Based on experiments conducted on 3D printed models, researchers have determined that this new material, with its distinct geometry, is actually stronger than graphene – making it 10 times stronger than steel, with only five percent of its density.

FUTURE APPLICATIONS

The discovery of a material that is extremely strong but exceptionally lightweight will have numerous applications. As MIT reports:

The new findings show that the crucial aspect of the new 3-D forms has more to do with their unusual geometrical configuration than with the material itself, which suggests that similar strong, lightweight materials could be made from a variety of materials by creating similar geometric features.

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“You could either use the real graphene material or use the geometry we discovered with other materials, like polymers or metals,” says Markus Buehler, the head of MIT’s Department of Civil and Environmental Engineering (CEE) and the McAfee Professor of Engineering. “You can replace the material itself with anything. The geometry is the dominant factor. It’s something that has the potential to transfer to many things.”

Large scale structural projects, such as bridges, can follow the geometry to ensure that the structure is strong and sound. Construction may prove to be easier, given that the material used will now be significantly lighter. Because of its porous nature, it may also be applied to filtration systems.

This work, says Huajian Gao, a professor of engineering at Brown University, who was not involved in this work, “shows a promising direction of bringing the strength of 2-D materials and the power of material architecture design together.”


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