(Nanowerk News) Electrically powered artificial muscle fibers (EAMFs) are emerging as a revolutionary power source for advanced robotics and wearable devices. Renowned for their exceptional mechanical ...

In the dynamic landscape of intelligent technology, electrically powered artificial muscle fibers (EAMFs) are emerging as a revolutionary power source for advanced robotics and wearable devices.

(Nanowerk News) Prof. Sang Ouk Kim’s group at KAIST has developed a new type of artificial muscle fiber based on graphene-liquid crystal elastomer composites. This new artificial muscle has been ...

In two new studies, North Carolina State University researchers designed and tested a series of textile fibers that can change shape and generate force like a muscle. In the first study, the ...

Swedish researchers have developed a breakthrough 3D printing method to create soft actuators. These dielectric elastic actuators (DEA) are made from silicone-based materials, combining conductive ...

The artificial muscle is capable of 758 Joules of work per kilogram, which is 18 times higher than your biological muscles. Share on Facebook (opens in a new window) Share on X (opens in a new window) ...

In a recent article published in Gels, researchers from China developed multilayer porous plasticized polyvinyl chloride (PVC) gel artificial muscles using carbon nanotube-doped 3D-printed silicone ...

Engineers developed a method to grow artificial muscle tissue that twitches and flexes in multiple, coordinated directions. These tissues could be useful for building 'biohybrid' robots powered by ...

The flow of water within a muscle fiber may dictate how quickly muscle can contract, according to a new study. The flow of water within a muscle fiber may dictate how quickly muscle can contract, ...

For [Lloyd T Cannon III]’s entry to the Hackaday Prize, he’s doing nothing less than changing the way everything moves. For the last 100 years, internal combustion engines have powered planes, trains, ...