INORGANIC STRUCTURE AND METHOD FOR PRODUCING SAME

Organization Name

Panasonic Intellectual Property Management Co., Ltd.

Inventor(s)

Natsuki Sato of Osaka (JP)

Ryosuke Sawa of Osaka (JP)

Naoki Kurizoe of Osaka (JP)

Tatsuro Yoshioka of Osaka (JP)

Tohru Sekino of Osaka (JP)

Sunghun Cho of Osaka (JP)

Tomoyo Goto of Osaka (JP)

INORGANIC STRUCTURE AND METHOD FOR PRODUCING SAME - A simplified explanation of the abstract

This abstract first appeared for US patent application 18275793 titled 'INORGANIC STRUCTURE AND METHOD FOR PRODUCING SAME

Simplified Explanation

The patent application describes an inorganic structure with a binding part that contains an amorphous compound and fine particles, binding together a plurality of inorganic particles.

• The inorganic structure includes a plurality of inorganic particles.
• The binding part covers the surface of each inorganic particle and binds them together.
• The binding part contains an amorphous compound with aluminum or titanium, oxygen, and metallic elements.
• Fine particles with an average size of 100 nm or less are present in the binding part.
• The inorganic particles have an average size of 1 μm or more.
• The inorganic particles have a volume percentage of 30% or more.

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1. 1. 1. Potential Applications

This technology could be applied in the development of advanced materials for various industries such as construction, electronics, and aerospace.

1. 1. 1. Problems Solved

This technology solves the problem of creating strong and durable inorganic structures by effectively binding together inorganic particles.

1. 1. 1. Benefits

The benefits of this technology include enhanced structural integrity, improved material strength, and increased resistance to environmental factors.

1. 1. 1. Potential Commercial Applications
         1. Strengthening Inorganic Structures for Diverse Industries

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1. 1. 1. Possible Prior Art

There may be prior art related to the use of amorphous compounds and fine particles in binding inorganic structures, but further research is needed to identify specific examples.

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1. 1. 1. 1. Unanswered Questions

1. 1. 1. How does this technology compare to traditional methods of binding inorganic particles?

This article does not provide a direct comparison to traditional methods of binding inorganic particles, leaving the reader to wonder about the specific advantages of this new technology.

1. 1. 1. What are the potential limitations or challenges in scaling up the production of inorganic structures using this technology?

The article does not address the scalability of production using this technology, leaving open questions about potential challenges in large-scale manufacturing processes.

Original Abstract Submitted

Provided is an inorganic structure including a plurality of inorganic particles; and a binding part that covers a surface of each of the plurality of inorganic particles and binds each of the plurality of inorganic particles together. The binding part contains: an amorphous compound containing at least one of aluminum or titanium, oxygen, and one or more metallic elements; and a plurality of fine particles having an average particle size of 100 nm or less. The plurality of inorganic particles has an average particle size of 1 μm or more, and the plurality of inorganic particles has a volume percentage of 30% or more.