Additionally, the artificial muscle showcases exceptional shape memory and actuation performance, with actuation strains up to 600% and energy densities of 1450 J/kg. Under thermal stimulation ...

Additionally, the artificial muscle showcases exceptional shape memory and actuation performance, with actuation strains up to 600% and energy densities of 1450 J/kg. Under thermal stimulation ...

An actuator that mimics the actions of muscles in wings of insects by a constant stream of light as its power source provides a high output power for powering rapid motions of robots. Artificial ...

Under thermal ... "This artificial muscle combines low modulus and high toughness while successfully replicating the training enhancement and actuation functions of natural muscle, showing great ...

A research team has successfully developed innovative artificial muscle fibers capable of producing and storing energy. The team anticipates that these findings will have broad applications in fields ...

The investigators found that patients with artificial hearts regenerated muscle cells at more than six times the rate of healthy hearts. A research team at the University of Arizona College of ...

Get Instant Summarized Text (Gist) Artificial motors have been developed to mimic muscle proteins, converting chemical energy into mechanical work. These nanoscale rotary motors, embedded in ...

heart muscles lose their ability to heal themselves after birth. The team analyzed tissue from artificial heart patients, provided by collaborators at the University of Utah Health and School of ...

Washington: A research team at the University of Arizona College of Medicine--Tucson's Sarver Heart Center found that a subset of artificial heart patients can regenerate heart muscle, which opens ...

Physician-scientists found that a subset of artificial heart patients can regenerate heart muscle, which may open the door to new ways to treat and perhaps someday cure heart failure. A research ...