COMPOSITE MEMBER

Organization Name

Panasonic Intellectual Property Management Co., Ltd.

Inventor(s)

Natsuki Sato of Osaka (JP)

Naoki Kurizoe of Osaka (JP)

Ryosuke Sawa of Osaka (JP)

Tatsuro Yoshioka of Osaka (JP)

COMPOSITE MEMBER - A simplified explanation of the abstract

This abstract first appeared for US patent application 18275358 titled 'COMPOSITE MEMBER

The composite member described in the patent application consists of an inorganic matrix part and a ferromagnetic material part.

• The inorganic matrix part is made from an inorganic substance such as a metal oxide or metal oxide hydroxide, does not contain single metal or alloy, and is either diamagnetic or paramagnetic.
• The ferromagnetic material part is embedded within the inorganic matrix part, directly bonds with the inorganic substance, and is made from a ferromagnetic substance.
• The inorganic matrix part has a higher volume ratio compared to the ferromagnetic material part, with particles of the inorganic substance continuously present within it.

Potential Applications: - This technology could be used in the development of advanced magnetic materials for various industrial applications. - It may find applications in the fields of electronics, telecommunications, and medical devices where magnetic properties are crucial.

Problems Solved: - Provides a novel composite material with unique magnetic properties. - Offers a way to combine inorganic and ferromagnetic materials effectively.

Benefits: - Enhanced magnetic properties due to the combination of inorganic and ferromagnetic materials. - Improved performance and versatility in applications requiring magnetic properties.

Commercial Applications: Title: Advanced Magnetic Composite Material for Industrial Applications This technology could be utilized in manufacturing magnetic sensors, data storage devices, and magnetic shielding materials, among other commercial applications. The market implications include improved product performance and increased efficiency in various industries.

Questions about the technology: 1. How does the combination of inorganic and ferromagnetic materials enhance the magnetic properties of the composite member? 2. What are the potential industrial applications of this advanced magnetic composite material?

Frequently Updated Research: Stay updated on the latest advancements in composite materials, magnetic properties, and industrial applications to explore new possibilities for this technology.

Original Abstract Submitted

Provided is a composite member including: an inorganic matrix part made from an inorganic substance that includes at least one of a metal oxide or a metal oxide hydroxide as a main component, contains substantially no single metal and alloy, and is a diamagnetic substance or a paramagnetic substance; and a ferromagnetic material part that is present inside the inorganic matrix part, directly bonds with the inorganic substance making up the inorganic matrix part, and is made from a ferromagnetic substance. In the inorganic matrix part, particles of the inorganic substance are continuously present, and the inorganic matrix part has a larger volume ratio than that of the ferromagnetic material part.