MODIFIED CROSS-SECTION FIBER

Organization Name

Murata Manufacturing Co., Ltd.

Inventor(s)

Tetsuya Yamanaga of Nagaokakyo-shi (JP)

Kenichi Mori of Nagaokakyo-shi (JP)

Masayuki Tsuji of Nagaokakyo-shi (JP)

Masayoshi Takagi of Nagaokakyo-shi (JP)

Ryosuke Ebina of Osaka (JP)

MODIFIED CROSS-SECTION FIBER - A simplified explanation of the abstract

This abstract first appeared for US patent application 18513836 titled 'MODIFIED CROSS-SECTION FIBER

Simplified Explanation

The abstract describes a fiber that exhibits an enhanced electric field intensity when a compressive force is applied along its longitudinal axis. The fiber is made up of a potential generating filament with at least one interior angle of less than 120° in a contour shape when viewed in a direction perpendicular to the longitudinal axis.

• The fiber is designed to increase electric field intensity under compression.
• The fiber contains a potential generating filament with specific interior angles for optimal performance.

Potential Applications

The technology could be applied in:

• Sensors
• Actuators
• Energy harvesting devices

Problems Solved

This technology addresses issues such as:

• Improving sensitivity in sensors
• Enhancing efficiency in energy harvesting devices

Benefits

The benefits of this technology include:

• Increased electric field intensity
• Improved performance under compression

Potential Commercial Applications

The fiber could be utilized in:

• Biomedical devices
• Aerospace applications

Possible Prior Art

Prior art in this field may include:

• Fibers with enhanced electric field properties under compression
• Filaments with specific interior angles for improved performance

Unanswered Questions

How does the fiber maintain its enhanced electric field intensity over time?

The longevity of the enhanced electric field intensity is a crucial aspect that needs further exploration. Research into the durability and stability of the fiber's properties could provide valuable insights.

What are the potential limitations of the fiber in real-world applications?

Understanding the constraints and challenges faced by the fiber when deployed in practical settings is essential for assessing its feasibility and effectiveness. Investigating factors that may hinder its performance can guide future development and optimization efforts.

Original Abstract Submitted

A fiber with which a further enhanced electric field intensity is obtained when a compressive force is applied across the longitudinal axis of the fiber. The fiber is composed of a potential generating filament having at least one interior angle of less than 120° in a contour shape in a sectional view in a direction perpendicular to a longitudinal axis of the fiber.