【Introduction】
Facing the country’s major needs for accelerating the development of new materials, based on the concept of “material genes and big data”, using micro, mesoscopic, and macro multi-scale material calculation methods, a database of material thermodynamics, dynamics and physical properties has been developed for accelerating the preparation process of this material. For example: The technology is applied to the development of new Co high-temperature alloy engine blade materials, shortening the research and development time by more than half; applied to the development of new aluminum-based hydrolysis hydrogen production core materials, achieving efficient hydrogen production, and is an aluminum-based hydrolysis hydrogen production material Laid the foundation for industrialized production.
【Innovation Results】
Artificial intelligence technology is used to assist the research of superalloys and prepared according to the optimized scheme. The designed new Co superalloy engine blade has a strengthening phase solid solution temperature of 1089 degrees, and its performance takes priority over the international highest temperature of 1026 degrees.
Based on the design concept of material genes, a new core-shell structure aluminum-based alloy material is designed for hydrogen production. The hydrogen energy power generation system combined with hydrogen-oxygen fuel cell hydrolysis hydrogen production materials has important application prospects in emergency power supplies, portable mobile power supplies, hydrogen refueling stations and other fields.
【Person in charge of results】
Liu Xingjun