Results 211 to 220 of about 64,701 (260)
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Materials Horizons, 2020
Torsional actuators are of potential application in areas that include smart textiles, exoskeletons, microfluidic mixing, microsensors, photonic displays, and energy-harvesting devices.
Shazed Aziz, Geoffrey M. Spinks
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Torsional actuators are of potential application in areas that include smart textiles, exoskeletons, microfluidic mixing, microsensors, photonic displays, and energy-harvesting devices.
Shazed Aziz, Geoffrey M. Spinks
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Toward stronger artificial muscles
Science Robotics, 2023Theoretical framework uses dielectric parameters to increase force output of electrostatic multilayer systems.
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Fuel-Powered Artificial Muscles
Science, 2006Artificial muscles and electric motors found in autonomous robots and prosthetic limbs are typically battery-powered, which severely restricts the duration of their performance and can necessitate long inactivity during battery recharge. To help solve these problems, we demonstrated two types of artificial muscles that convert the chemical energy of ...
Von Howard, Ebron +10 more
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Journal of Intelligent Material Systems and Structures, 2012
This article presents hydraulic artificial muscles as a viable alternative to pneumatic artificial muscles. Despite the actuation mechanism being similar to its pneumatic counterpart, hydraulic artificial muscles have not been widely studied. Hydraulic artificial muscles offer all the same advantages of pneumatic artificial muscles, such as compliance,
Rashi Tiwari +5 more
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This article presents hydraulic artificial muscles as a viable alternative to pneumatic artificial muscles. Despite the actuation mechanism being similar to its pneumatic counterpart, hydraulic artificial muscles have not been widely studied. Hydraulic artificial muscles offer all the same advantages of pneumatic artificial muscles, such as compliance,
Rashi Tiwari +5 more
openaire +1 more source
Air‐Working Electrochromic Artificial Muscles
Advanced Materials, 2023AbstractArtificial muscles are indispensable components for next‐generation robotics to mimic the sophisticated movements of living systems and provide higher output energies when compared with real muscles. However, artificial muscles actuated by electrochemical ion injection have problems with single actuation properties and difficulties in stable ...
Yong Ling +7 more
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Applied Physics Letters, 2015
Artificial muscles are soft actuators with the capability of either bending or contraction/elongation subjected to external stimulation. However, there are currently no artificial muscles that can accomplish these actions simultaneously. We found that the single layered, latticed microstructure of onion epidermal cells after acid treatment became ...
Chien-Chun Chen +6 more
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Artificial muscles are soft actuators with the capability of either bending or contraction/elongation subjected to external stimulation. However, there are currently no artificial muscles that can accomplish these actions simultaneously. We found that the single layered, latticed microstructure of onion epidermal cells after acid treatment became ...
Chien-Chun Chen +6 more
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A Liquid Metal Artificial Muscle
Advanced Materials, 2021AbstractArtificial muscles possess a vast potential in accelerating the development of robotics, exoskeletons, and prosthetics. Although a variety of emerging actuator technologies are reported, they suffer from several issues, such as high driving voltages, large hysteresis, and water intolerance.
Jian Shu +12 more
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Pressurized artificial muscles
Journal of Intelligent Material Systems and Structures, 2011Pressurized artificial muscles are reviewed. These actuators consist of stiff reinforcing fibers surrounding an elastomeric bladder and operate using a pressurized internal fluid. The pressurized artificial muscles, known as McKibben actuators or flexible matrix composite actuators, can be applied to a wide array of applications, including prosthetics/
Zhiye Zhang, Michael Philen
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Torsional Carbon Nanotube Artificial Muscles
Science, 2011Carbon nanotube yarns are used to make fast, multirotational torsional actuators.
Foroughi, Javad +10 more
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Unraveling DNA inspires artificial muscle
Science Robotics, 2021Super-contractile artificial muscle that is inspired by DNA generates more work than skeletal muscle.
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