A PROCESSABLE, HIGH-PERFORMANCE DIELECTRIC ELASTOMER AND MULTILAYER DIELECTRIC ELASTOMER ACTUATOR

Organization Name

The Regents of the University of California

Inventor(s)

Qibing Pei of Los Angeles CA (US)

Erin Askounis of San Jose CA (US)

Ye Shi of Los Angeles CA (US)

A PROCESSABLE, HIGH-PERFORMANCE DIELECTRIC ELASTOMER AND MULTILAYER DIELECTRIC ELASTOMER ACTUATOR - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240276886 titled 'A PROCESSABLE, HIGH-PERFORMANCE DIELECTRIC ELASTOMER AND MULTILAYER DIELECTRIC ELASTOMER ACTUATOR

Simplified Explanation: The patent application describes a dielectric elastomer made of a crosslinked network with polypropylene oxide units, used in multi-layer structures for actuation in robotic, haptic, or wearable devices.

Key Features and Innovation:

• Dielectric elastomer with polypropylene oxide units in a crosslinked network.
• Multi-layer dielectric elastomer structure with a conductive network and polymer layer.
• Actuator or artificial muscle with high strain and energy conversion efficiency.

Potential Applications: The technology can be used in robotics, haptics, wearable devices, and other applications requiring actuation or artificial muscle functionality.

Problems Solved: The technology addresses the need for efficient and high-performance actuators or artificial muscles in various devices and systems.

Benefits:

• High strain capability
• Efficient energy conversion
• Versatile applications in robotics, haptics, and wearables

Commercial Applications: Potential commercial applications include robotic systems, haptic interfaces, prosthetics, exoskeletons, and wearable devices in various industries.

Questions about the Technology: 1. How does the dielectric elastomer with polypropylene oxide units enhance actuation capabilities? 2. What are the specific advantages of using a multi-layer dielectric elastomer structure in robotic applications?

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Original Abstract Submitted

a dielectric elastomer including a crosslinked network comprising a polypropylene oxide) unit on a network chain or a pendant group. in another example, the dielectric elastomer is stacked in a multi-layer dielectric elastomer structure comprising two adjacent dielectric elastomer layers, a layer of a. conductive network sandwiched between the two adjacent dielectric elastomer layers, and. a polymer layer binding the conductive network and the two adjacent dielectric elastomer layers. the dielectric elastomer can be used as an actuator or artificial muscle in a variety of robotic, haptic, or wearable devices. in one or more examples, the dielectric elastomer has a strain, including an area strain, greater than least 100% in response to the electric field less than 150 volts per micron and converts at least 10% of inputted electrical energy to mechanical work.