Inspired by bone, new adaptive material strengthens from vibration

Inspired by bone, new adaptive material strengthens from vibration
PME researchers have developed a new gel material (white) that mimics bone and gets stronger when exposed to vibration, which could lead to new adhesives and better ways of integrating implants within the body. Credit: Z. Wang et al./Nature Materials

Bone is not just a fixed material—it's a dynamic set of structures that can adapt their mass and strength based on the loads they must support.

Developing that sort of adaptive material has long been the dream of scientists. Now for the first time, scientists at the Pritzker School of Molecular Engineering (PME) at the University of Chicago have developed a gel material that strengthens when exposed to vibration.

Not only were scientists able to make the material 66 times stronger through vibrations, they were also able to strengthen only the areas exposed to movement. That sort of specificity could lead to new adhesives and better ways of integrating implants within the body.

The results were published February 22 in the journal Nature Materials.

"Every other material becomes weaker when vibrated," said Assoc. Prof. Aaron Esser-Kahn, who led the research. "This is the first time we have reversed that process, showing that a material can strengthen itself with mechanical vibration."

Forming a second network within the material

When Esser-Kahn and his group began thinking about how to develop adaptive materials, they looked to take advantage of the piezoelectric effect, which gives certain materials the ability to generate an in response to mechanical stress. Such a charge could instigate a reaction within a material and strengthen it, they proposed.

But generating the right response to mechanical stress proved tough. The team tested dozens of different chemistries before they found the one that worked: a polymer gel mixed with thiol-ene reactors and zinc oxide piezoelectric particles.

When the material is vibrated, the particles transduce energy and create a thiol-ene reaction, which causes the components in the material to cross link. That cross-linking essentially forms a second network inside the material, strengthening it.

Though the material started off as a soft, collagenous material, as the vibration increased, the material was strengthened further and further. The team was able to increase the strength of the material to 66 times its original strength, ending with a material that was close to the stiffness of the interior parts of bone.

"Just like bone, the material strengthened to the exact amount of power we put into it," Esser-Kahn said. Not only that, the material didn't just strengthen throughout—it selectively strengthened itself in specific areas where it was stressed to a higher degree.

Creating new kinds of adhesives that integrate with the body

That sort of selective strengthening could lead to materials that can selectively stiffen—and a new way to design structures. Perhaps it could become part of a building that gets stronger as it ages, or be used to adhere materials together in an airplane.

"Adhesives could be hugely influenced by this," Esser-Kahn said. "Adhesives are almost always the point of failure in materials. This could lead to specialized adhesives that adhere and set much better."

The group is examining how to use the material to better integrate artificial materials into the —in hip implants, for example.

"No two humans are alike, and a material like this is how we start making materials that behave the same as those found in biology," Esser-Kahn said.

Other authors on the paper include postdoctoral researchers Zhao Wang, Jun Wang, and Saikat Manna; graduate student Jorge Ayarza; former graduate researcher Tim Steeves; and Ziying Hu of Northwestern University.


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More information: Zhao Wang et al. Bio-inspired mechanically adaptive materials through vibration-induced crosslinking, Nature Materials (2021). DOI: 10.1038/s41563-021-00932-5
Journal information: Nature Materials

Citation: Inspired by bone, new adaptive material strengthens from vibration (2021, March 10) retrieved 10 April 2021 from https://phys.org/news/2021-03-bone-material-vibration.html
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