... a powerful punch - relatively speaking. The new artificial muscle invented by U.S. researchers is, at once, light as air, stiffer than steel and more flexible than rubber ...
... polymers and other materials they hope to someday use to create artificial muscles that, when given an electrical charge, mimic ... today that they have demonstrated a fundamentally new type of artificial muscle, consisting almost exclusively of carbon ...
Engineers are exploring the field of artificial muscles to invent "smart" devices that can grab and move objects.
Artificial muscles driving the robots or prosthetic limbs of the future might be powered by the kind of alcohol that can make people blind.
Research with tiny artificial muscles may yield a full-page active Braille system that can refresh automatically and come to life right beneath your fingertips.
Research with tiny artificial muscles may yield a full-page active Braille system that can refresh automatically and come to life right beneath your fingertips.
... with the sling were well within the attainable range of the artificial muscle. This capability may allow the creation of a realistic ... similar to those used in cochlear implants would power the artificial muscle. For patients who have one functioning eyelid, a sensor ...
... -year-old question about an exotic class of "artificial muscles"—how do they work? Their results* could influence the design of future specialized robotic tools. These "artificial muscles," first demonstrated in the early 1990s ...
... ordered three dimensional arrays -- a discovery that could change the way that many active material are made, from artificial muscles to solar cells ...
... requiring external electronics to control its progress. Using artificial muscles, hyper-elastic materials that expand ... team has made a prototype for a self-commutating artificial muscle motor that does not require external ...
... and expanding on demand. When electricity is applied to the graphene, the artificial muscle expands in area; when the electricity is cut ... Braille displays. The broad impact of new artificial muscles is potentially analogous to the impact of piezoelectric ...
... materials that can mimic biological systems and can be used as components of artificial nerves, electronic noses/tongues, drug-release-and-delivering systems, and artificial muscles. They can also be used as energy storage devices in battery ...
... applications that can be controlled at the molecular scale. The technology has been suggested as a possible basis for molecular motors, artificial muscles, and molecular electronics. The research results ...
... — but cannot be dissolved in a liquid. This type of polymers has many and very diverse applications. For example, they can be used to make artificial muscle or for capturing heavy metals in waste ...
Researchers have developed a robotic fish with artificial muscles, and it is nimble enough to check water quality in confined spaces.
