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  Self-adaptive material that heals itself

Self-adaptive material that heals itself

PTI
Published : Jan 13, 2016, 12:23 am IST
Updated : Jan 13, 2016, 12:23 am IST

Scientists have invented an self-adaptive material that heals itself and bounces back from extraordinary compression which may be useful for tissue engineering or lightweight structural applications.

Representational image
 Representational image

Scientists have invented an self-adaptive material that heals itself and bounces back from extraordinary compression which may be useful for tissue engineering or lightweight structural applications.

The material created by researchers at Rice University in Texas, US, combines self-healing and reversible self-stiffening properties.

Called SAC (self-adaptive composite), the material consists of what amounts to sticky, micron-scale rubber balls that form a solid matrix.

The researchers made SAC by mixing two polymers and a solvent that evaporates when heated, leaving a porous mass of gooey spheres.

When cracked, the matrix quickly heals, over and over. Like a sponge, it returns to its original form after compression.

Researchers suggest that SAC may be a useful biocompatible material for tissue engineering or a lightweight, defect-tolerant structural component.

“Other ‘self-healing’ materials encapsulate liquid in solid shells that leak their healing contents when cracked. Those are very cool, but we wanted to introduce more flexibility,” said Pei Dong from Rice University.

“We wanted a biomimetic material that could change itself, or its inner structure, to adapt to external stimulation and thought introducing more liquid would be a way. But we wanted the liquid to be stable instead of flowing everywhere,” said Dong.

In SAC, tiny spheres of polyvinylidene fluoride (PVDF) encapsulate much of the liquid. The viscous polydimethylsiloxane (PDMS) further coats the entire surface. The spheres are extremely resilient as their thin shells deform easily.

Their liquid contents enhance their viscoelasticity, a measure of their ability to absorb the strain and return to their original state, while the coatings keep the spheres together. The spheres also have the freedom to slide past each other when compressed, but remain attached.

“The sample does not give you the impression that it contains any liquid. That is very different from a gel,” said Lou.

“This is not really squishy; it is more like a sugar cube that you can compress quite a lot. The nice thing is that it recovers,” Lou added.

Making SAC is simple, and the process can be tuned - a little more liquid or a little more solid - to regulate the product’s mechanical behaviour, researchers said.

The polymer components begin as powder and viscous liquid. With the addition of a solvent and controlled heating, the PDMS stabilises into solid spheres that provide the reconfigurable internal structure.

In tests, scientists found a maximum of 683 per cent increase in the material’s storage modulus — a size-independent parametre used to characterise self-stiffening behaviour. This is much larger than that reported for solid composites and other materials, researchers said. The findings were published in the journal ACS Applied Materials and Interfaces.

Location: United States, Texas, Houston