SHOFU INC. (20240325256). PHOTOPOLYMERIZABLE COMPOSITION FOR 3D PRINTER CONTAINING POLYMERIZABLE MONOMER HAVING ALLOPHANATE BOND simplified abstract

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PHOTOPOLYMERIZABLE COMPOSITION FOR 3D PRINTER CONTAINING POLYMERIZABLE MONOMER HAVING ALLOPHANATE BOND

Organization Name

SHOFU INC.

Inventor(s)

Mamoru Hosokawa of Kyoto (JP)

Fumio Imahori of Kyoto (JP)

Hidefumi Fujimura of Kyoto (JP)

PHOTOPOLYMERIZABLE COMPOSITION FOR 3D PRINTER CONTAINING POLYMERIZABLE MONOMER HAVING ALLOPHANATE BOND - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240325256 titled 'PHOTOPOLYMERIZABLE COMPOSITION FOR 3D PRINTER CONTAINING POLYMERIZABLE MONOMER HAVING ALLOPHANATE BOND

Simplified Explanation: The patent application aims to provide a photopolymerizable composition that is highly formable in a 3D printer and can create a three-dimensional modeled object with exceptional toughness using optical stereolithography (stereolithography).

  • The composition is designed for use in 3D printers to create durable and tough three-dimensional objects.
  • It utilizes optical stereolithography technology for precise and detailed modeling.
  • The material is photopolymerizable, allowing it to harden when exposed to light, enabling the creation of complex shapes.
  • The resulting objects have excellent toughness, making them suitable for various applications requiring durability.

Potential Applications: The technology can be used in various industries such as manufacturing, prototyping, product design, and healthcare for creating durable and detailed three-dimensional objects.

Problems Solved: This technology addresses the need for a photopolymerizable composition that is highly formable in 3D printers and can produce tough three-dimensional objects with optical stereolithography.

Benefits: The benefits of this technology include the ability to create complex and durable three-dimensional objects with excellent toughness and precision, suitable for a wide range of applications.

Commercial Applications: The technology can be commercially used in industries such as aerospace, automotive, medical, and consumer goods for rapid prototyping, product development, and manufacturing of durable components.

Questions about Photopolymerizable Composition for 3D Printing: 1. How does the photopolymerizable composition improve the formability of 3D printed objects? 2. What are the key advantages of using optical stereolithography in creating tough three-dimensional objects?


Original Abstract Submitted

to provide a photopolymerizable composition that has excellent formability in 3d printer and can prepare a three-dimensional modeled object with excellent toughness by using optical stereolithography (stereolithography).