TORAY INDUSTRIES, INC. (20240246285). FILAMENT FOR 3D PRINTER AND PRODUCTION METHOD THEREFOR simplified abstract
Contents
FILAMENT FOR 3D PRINTER AND PRODUCTION METHOD THEREFOR
Organization Name
Inventor(s)
Taisuke Kogawa of Otsu-shi, Shiga (JP)
Koji Kadowaki of Kamakura-shi, Kanagawa (JP)
Masataka Nakamura of Otsu-shi, Shiga (JP)
FILAMENT FOR 3D PRINTER AND PRODUCTION METHOD THEREFOR - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240246285 titled 'FILAMENT FOR 3D PRINTER AND PRODUCTION METHOD THEREFOR
Simplified Explanation: The patent application describes a biodegradable filament for a 3D printer, consisting of an amorphous biodegradable polyester and a water-soluble polymer with specific melting point characteristics.
- The biodegradable filament for a 3D printer includes an amorphous biodegradable polyester and a water-soluble polymer.
- The water-soluble polymer must have a melting point between 30°C and 220°C.
- The biodegradable polyester can be either amorphous or crystalline.
Key Features and Innovation:
- Combination of amorphous biodegradable polyester and water-soluble polymer.
- Specific melting point range for the water-soluble polymer.
- Option for either amorphous or crystalline biodegradable polyester.
Potential Applications:
- Sustainable 3D printing.
- Environmentally friendly manufacturing processes.
- Biodegradable product prototyping.
Problems Solved:
- Reducing environmental impact of 3D printing.
- Enhancing biodegradability of printed products.
- Improving sustainability in manufacturing.
Benefits:
- Eco-friendly alternative to traditional filaments.
- Biodegradable end products.
- Versatile material options for different printing needs.
Commercial Applications:
- Sustainable product development.
- Green manufacturing practices.
- Biodegradable packaging solutions.
Questions about Biodegradable Filament for 3D Printer: 1. How does the combination of amorphous biodegradable polyester and water-soluble polymer benefit the environment? 2. What are the potential market implications of using this biodegradable filament in 3D printing processes?
Frequently Updated Research: Ongoing research on biodegradable materials in additive manufacturing and sustainable product development.
Original Abstract Submitted
a biodegradable filament for a 3d printer, the biodegradable filament including an amorphous biodegradable polyester, and a water-soluble polymer different from the biodegradable polyester, wherein the water-soluble polymer has a melting point of 30� c. or more and 220� c. or less, or the biodegradable polymer is crystalline.