MIT engineers design flexible “skeletons” for soft, muscle-powered robots
MIT engineers designed modular, spring-like devices to maximize the work of live muscle fibers so they can be harnessed to power biohybrid r
Gosh, what could go wrong?
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MIT engineers design flexible “skeletons” for soft, muscle-powered robots
MIT engineers designed modular, spring-like devices to maximize the work of live muscle fibers so they can be harnessed to power biohybrid r
Gosh, what could go wrong?
Self-healing material a breakthrough for bio-inspired robotics
Many natural organisms have the ability to repair themselves. Now, manufactured machines will be able to mimic this property. In findings published this week in Nature Materials, researchers at Carnegie Mellon University have created a self-healing material that spontaneously repairs itself under extreme mechanical damage.
This soft-matter composite material is composed of liquid metal droplets suspended in a soft elastomer. When damaged, the droplets rupture to form new connections with neighboring droplets and reroute electrical signals without interruption. Circuits produced with conductive traces of this material remain fully and continuously operational when severed, punctured, or had material removed.