POWDER FOR USE IN ADDITIVE PRODUCTION METHOD, METHOD FOR PRODUCING CERAMIC ARTICLE USING THE SAME, AND CERAMIC ARTICLE

Organization Name

CANON KABUSHIKI KAISHA

Inventor(s)

Shunsuke Murakami of Tokyo (JP)

YASUSHI Shimizu of Kanagawa (JP)

NOBUHIRO Yasui of Kanagawa (JP)

KANAKO Oshima of Tokyo (JP)

POWDER FOR USE IN ADDITIVE PRODUCTION METHOD, METHOD FOR PRODUCING CERAMIC ARTICLE USING THE SAME, AND CERAMIC ARTICLE - A simplified explanation of the abstract

This abstract first appeared for US patent application 18483148 titled 'POWDER FOR USE IN ADDITIVE PRODUCTION METHOD, METHOD FOR PRODUCING CERAMIC ARTICLE USING THE SAME, AND CERAMIC ARTICLE

Simplified Explanation

The abstract of the patent application describes a powder that can be heated by light. The powder is composed of silicon monoxide particles and another type of particle, such as aluminum oxide, silicon dioxide, or an oxide particle containing silicon and aluminum. The mass fractions of these particles in the powder are represented by x, y, and z, where x represents the mass fraction of aluminum oxide (AlO), y represents the mass fraction of silicon dioxide (SiO2), and z represents the mass fraction of silicon oxide (SiO).

• The powder is heated by light.
• It contains silicon monoxide particles and another type of particle.
• The other particle can be aluminum oxide, silicon dioxide, or an oxide particle containing silicon and aluminum.
• The mass fractions of aluminum oxide, silicon dioxide, and silicon oxide in the powder are represented by x, y, and z, respectively.

Potential Applications:

• Heat-sensitive materials or devices that can be activated by light.
• Energy-efficient heating systems.
• Photothermal therapy in medicine.

Problems Solved:

• Provides a powder that can be heated by light, offering a new method of heating.
• Enables controlled and precise heating in various applications.
• Offers a versatile and customizable heating solution.

Benefits:

• Energy-efficient heating method.
• Precise and controlled heating.
• Versatile and customizable for different applications.
• Potential for use in medical treatments and therapies.

Original Abstract Submitted

A powder that is heated by light, the powder comprising a silicon monoxide particle and another particle other than the silicon monoxide particle, wherein the another particle includes, at least one type of particle selected from the group including an aluminum oxide particle, a silicon dioxide particle, and an oxide particle which includes silicon and aluminum as elements, and wherein in a case where the another particle are converted into oxides represented by the AlOand the SiO, x, y, and z representing mass fractions of AlO, SiO, and SiO, respectively, in an entirety of the powder satisfy relationships.