INNOVATIONS
Engineers say new fabric could pave the way for adaptive exoskeletons or casts for broken bones
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In the Batman movies, the Dark Knight’s cape pulls off a neat trick. Most of the time it billows behind him while he crumples nameless henchmen, but when Batman needs to make a quick escape, he can leap off a building and stiffen his cape so that it works like a glider that carries him into the night. One moment the cape is fluid, then the next it’s rigid. It’s a neat trick that engineers at Caltech and JPL have now replicated in the real world.
This material, inspired by chainmail, can go from a foldable, fluid-like state into a specific solid shape with the application of pressure. The researchers behind it hope this tech could potentially be used as a smart fabric for exoskeletons, or even as an adaptive cast to be applied to a broken limb, to keep your bones where they need to be.
The physics behind the technology will be familiar to anyone’s who’s bought vacuumpacked coffee, explains Chiara Daraio, a professor of mechanical engineering and applied physics at
Caltech. “Think about coffee in a vacuum-sealed bag. When still packed, it is solid, via a process we call ‘jamming’. But as soon as you open the package, the coffee grounds are no longer jammed against each other and you can pour them as though they were a fluid,” she says.
To discover the chainmail that would be the most flexible at rest and the stiffest under pressure, the team 3D-printed different configurations of linked particles and tested each in a computer simulation. They discovered that the larger the average number of contacts between particles – such has rings or squares – the greater the difference between how flexible and how stiff the material could become. In one demonstration, the fabric was able to support a load more than 50 times its own weight.
In parallel research, Daraio and her team are investigating strips of polymers that shrink when heated. These strips could be woven into this new type of chainmail to create solid objects – like bridges – that fold down flat when not needed. The two materials working together could also, she suggests, create robots that can morph into different shapes to solve different problems.
“IN ONE DEMONSTRATION, THE FABRIC COULD SUPPORT A LOAD MORE THAN 50 TIMES ITS WEIGHT” SIGNALS”