CORDIS Project
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This project explores the potential of fluid-gap transducers to revolutionize actuation technologies for challenging environments like space and deep sea. By enhancing the performance of electroactive polymers, it aims to enable new robotic systems and energy harvesting solutions.
While mechatronic solutions become increasingly pervasive, there are areas, such as the space or the ocean depths, that are still difficult to reach and exploit through conventional technologies.
Yet, such areas represent an immense source of materials and energy. A bottleneck is represented by actuation/generation technologies, which struggle in unconventional environments.
Electrostatic drives based on electroactive polymers (EAPs) have long been regarded as a potentially game-changing soluti…
UNIVERSITA DEGLI STUDI DI TRENTO
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