RADIATOR AND HEAT SINK

Organization Name

Mitsubishi Electric Corporation

Inventor(s)

Motoki Masaki of Tokyo (JP)

RADIATOR AND HEAT SINK - A simplified explanation of the abstract

This abstract first appeared for US patent application 18286762 titled 'RADIATOR AND HEAT SINK

Simplified Explanation:

This patent application describes a radiator that incorporates a heat radiation ceramic material with specific metal oxides to enhance its performance.

• The heat radiation ceramic material consists of a first metal oxide with a wurtzite crystal structure and a second metal oxide with high emissivity in a specific wavelength range.
• The second metal oxide can be a trivalent metal-doped metal oxide or a monovalent metal-doped metal oxide, where some metal atoms of the first metal oxide are substituted with trivalent or monovalent metal atoms.

Key Features and Innovation:

• Inclusion of specific metal oxides with unique properties to improve heat radiation efficiency.
• Utilization of metal oxides with high emissivity in a specific wavelength range for enhanced performance.
• Introduction of trivalent and monovalent metal-doped metal oxides to modify the properties of the heat radiation ceramic material.

Potential Applications:

The technology can be applied in various heating and cooling systems where efficient heat radiation is crucial, such as automotive radiators, industrial heaters, and electronic cooling systems.

Problems Solved:

• Enhances heat radiation efficiency.
• Improves overall performance of radiators and heating systems.
• Provides better control over temperature regulation.

Benefits:

• Increased heat radiation efficiency.
• Improved thermal management in various applications.
• Enhanced durability and performance of heating systems.

Commercial Applications:

Potential commercial applications include automotive industry for improved radiator performance, electronics industry for better thermal management, and industrial sector for efficient heating systems.

Prior Art:

Readers can explore prior research on heat radiation ceramic materials, metal oxides in radiators, and advancements in thermal management technologies.

Frequently Updated Research:

Stay updated on the latest research related to heat radiation efficiency, metal oxide properties, and advancements in thermal control systems.

Questions about Radiator Technology:

1. What are the specific benefits of using metal oxides with high emissivity in a radiator? 2. How do trivalent and monovalent metal-doped metal oxides enhance the performance of heat radiation ceramic materials?

Original Abstract Submitted

A radiator includes a heat radiation ceramic material. The heat radiation ceramic material includes a first metal oxide as a principal component, the first metal oxide being a metal oxide having a wurtzite crystal structure; and a second metal oxide as a metal oxide having an average emissivity higher than or equal to 70% in a wavelength range of 3 μm to 25 μm inclusive. At least one of a trivalent metal-doped metal oxide where some metal atoms of the first metal oxide are substituted with trivalent metal atoms and a monovalent metal-doped metal oxide where some metal atoms of the first metal oxide are substituted with monovalent metal atoms is included as the second metal oxide.