NIKKEIKIN ALUMINIUM CORE TECHNOLOGY COMPANY, LTD. (20240316635). MATERIAL FOR ADDITIVE MANUFACTURING, ADDITIVE MANUFACTURING METHOD, AND ADDITIVE MANUFACTURING APPARATUS simplified abstract
MATERIAL FOR ADDITIVE MANUFACTURING, ADDITIVE MANUFACTURING METHOD, AND ADDITIVE MANUFACTURING APPARATUS
Organization Name
NIKKEIKIN ALUMINIUM CORE TECHNOLOGY COMPANY, LTD.
Inventor(s)
Masato Yatsukura of Tokyo (JP)
MATERIAL FOR ADDITIVE MANUFACTURING, ADDITIVE MANUFACTURING METHOD, AND ADDITIVE MANUFACTURING APPARATUS - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240316635 titled 'MATERIAL FOR ADDITIVE MANUFACTURING, ADDITIVE MANUFACTURING METHOD, AND ADDITIVE MANUFACTURING APPARATUS
The material for additive manufacturing described in the abstract consists of two powders, A and B. Powder A contains an alloy or pure metal, while powder B contains an alloy with a different composition from powder A. The material has specific temperature ranges for the liquid phase ratios of powders A and B.
- Powder A contains an alloy or pure metal, while powder B contains an alloy with a different composition.
- Liquid phase ratio of powder A is 30% or less by mass, while the liquid phase ratio of powder B is 70% or more by mass.
- The material is designed for additive manufacturing processes.
Potential Applications: - Additive manufacturing in various industries such as aerospace, automotive, and medical. - Customized part production with specific material properties.
Problems Solved: - Allows for the creation of complex parts with tailored material compositions. - Enhances the efficiency and precision of additive manufacturing processes.
Benefits: - Improved material flexibility and customization. - Enhanced performance and durability of manufactured parts.
Commercial Applications: - Production of high-performance components in aerospace and automotive industries. - Customized medical implants and devices.
Questions about the material for additive manufacturing: 1. How does the liquid phase ratio of powders A and B impact the additive manufacturing process? 2. What are the specific advantages of using two different powders in additive manufacturing?
Frequently Updated Research: - Stay updated on advancements in additive manufacturing technologies and materials for improved performance and efficiency.
Original Abstract Submitted
a material for additive manufacturing includes a powder a and a powder b. the powder a includes an alloy or a pure metal. the powder b includes an alloy having a composition different from a composition of the powder a. the material for additive manufacturing has a temperature range in which a liquid phase ratio of the powder a is 30% by mass or less relative to a total mass of the powder a, and a liquid phase ratio of the powder b is 70% by mass or greater relative to a total mass of the powder b.
