Search Results - flexible+electronics

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Mechanical Neural-Network-Based Metamaterial That Learns Its Properties (Case No. 2022-317)

Summary: UCLA researchers in the Department of Mechanical and Aerospace Engineering have developed a new type of meta-material that can actively adapt its mechanical properties from exposure to external stimuli. Background: As technologies have evolved, humans developed new methods to produce unique materials, such as plastics, steels and composites,...

Published: 10/29/2024 | Inventor(s): Jonathan Hopkins, Erwin Mulder, Ryan Hansen Lee

Keywords(s): active actuators, additive manufacturing, Artificial Neural Network, artificial-intelligent materials, Composite Material, Composite Materials, Construction Materials, deep physical neural network, Flexible Electronics, Functional Materials, lattice structures, Materials, Medical Devices and Materials, meta materials, microarchitectured materials, Nanomaterials, Smart Material, stiffness tunability

Category(s): Materials, Mechanical, Electrical, Electrical > Signal Processing, Software & Algorithms

2021-225 An Innovative Dielectric Elastomer and Multilayer Dielectric Elastomer Actuator with High Electrically Induced Actuation Strains

SUMMARY: UCLA researchers in the Department of Materials Science and Engineering have developed a dielectric elastomer and layering process that can produce actuators capable of high strain and high frequency actuation. BACKGROUND: Dielectric elastomers (DE) can act as deformable capacitors that can generate a mechanical movement in response to an...

Published: 7/19/2023 | Inventor(s): Qibing Pei, Erin Askounis, Ye Shi

Keywords(s): Actuator, Capacitor, Dielectric, Elastomer, Electroactive Polymers, Flexible Electronics, Functional Materials, Haptic Technology, Haptic Technology Robotic Surgery, Robotics, Sensors, Smartphone

Category(s): Software & Algorithms, Software & Algorithms > Bioinformatics, Life Science Research Tools, Software & Algorithms > Programs

Discovering Giant Magnetoelastic Effect in a Soft Body for Electricity Generation (Case No. 2021-231)

Summary: UCLA researchers in the Department of Bioengineering have developed an innovative wearable generator that efficiently harnesses energy from biomechanical motion and conforms to human skin. Background: Due to increasing prominence of wearable technology, there is a simultaneous rise in the demand for portable energy systems. Typically,...

Published: 5/30/2024 | Inventor(s): Jun Chen

Keywords(s): Biocompatibility, Biomechanics, Energy Generation & Storage, Energy Generation, Transmission, or Storage, Energy Harvesting, Flexible Electronics

Category(s): Materials > Functional Materials, Energy & Environment > Energy Generation