FIBER STRUCTURE WITH IMPROVED FLEXIBILITY AND RESPONSIVENESS AND MANUFACTURING METHOD THEREOF

Organization Name

HYUNDAI MOTOR COMPANY

Inventor(s)

Hong Chan Jeon of Seoul (KR)

Sung June Park of Jeonju-si (KR)

Sang Min Lee of Jeonju-si (KR)

FIBER STRUCTURE WITH IMPROVED FLEXIBILITY AND RESPONSIVENESS AND MANUFACTURING METHOD THEREOF - A simplified explanation of the abstract

This abstract first appeared for US patent application 18082294 titled 'FIBER STRUCTURE WITH IMPROVED FLEXIBILITY AND RESPONSIVENESS AND MANUFACTURING METHOD THEREOF

Simplified Explanation

The patent application describes a composite fiber structure that offers improved flexibility and responsiveness. It introduces a method of manufacturing this structure by injecting a liquid metal into an interdigitated structure of composite fibers.

• The composite fiber structure is designed to have both flexibility and fast responsiveness simultaneously.
• The manufacturing process involves injecting a liquid metal into the interdigitated structure of composite fibers.
• The interdigitated structure allows for enhanced flexibility and responsiveness.
• The use of liquid metal provides additional conductivity and responsiveness to the composite fiber structure.

Potential Applications

This technology has potential applications in various fields, including:

• Wearable electronics: The flexible and responsive composite fiber structure can be used in the development of wearable devices such as smart clothing and accessories.
• Robotics: The improved flexibility and responsiveness of the composite fiber structure can be utilized in the development of robotic systems and prosthetics.
• Biomedical devices: The composite fiber structure can be used in the development of biomedical devices that require flexibility and fast responsiveness, such as sensors and implantable devices.

Problems Solved

The technology addresses the following problems:

• Limited flexibility: Traditional composite fiber structures may lack flexibility, limiting their applications in certain fields.
• Slow responsiveness: Some composite fiber structures may have slower response times, which can be a disadvantage in applications that require quick reactions.
• Lack of conductivity: Many composite fibers are not conductive, limiting their use in applications that require electrical conductivity.

Benefits

The technology offers the following benefits:

• Improved flexibility: The composite fiber structure provides enhanced flexibility, allowing it to conform to different shapes and movements.
• Fast responsiveness: The interdigitated structure and injection of liquid metal enable fast response times, making it suitable for applications that require quick reactions.
• Enhanced conductivity: The inclusion of liquid metal improves the conductivity of the composite fiber structure, expanding its potential applications in electrical and electronic fields.

Original Abstract Submitted

A composite fiber structure with improved flexibility and responsiveness, and a method for manufacturing the same, and more particularly, through an interdigitated structure of composite fibers into which a liquid metal is injected, it is possible to have flexibility and fast responsiveness at the same time.