The Northwest Institute of Nonferrous Metals has a National Engineering Research Center for Processing of Rare Metallic Materials, a State Key Laboratory of Porous Materials, and a National Engineering Laboratory for Preparation of Superconducting Materials. At the 13th East-West Trade Fair, the Institute sent a batch of The project that can represent its research strength has attracted attention in the field of domestic superconductivity and once again demonstrated the significance of the Northwest Nonferrous Metal Research Institute as an important research base for rare metal materials.
The “Non-titanium-titanium superconductor wire short flow preparation technology†was selected by the Northwest Institute of Non-ferrous Metals as the front-end exploration project for special approval of superconducting materials and technologies for the “Tenth Five-Year Plan†and “863†Plan of the Ministry of Science and Technology. Very high practical value has been achieved in practice for large-scale applications.
The "Bi-2223 High-Temperature Superconducting Materials Industrialization" project selected by the Northwest Institute of Nonferrous Metals relied on proprietary technology and home-made equipment to solve the problem of uniformity in long belt preparation without reducing the current carrying capacity of the belt. In this case, the critical tensile stress of the strip is greatly increased, and the properties of the strip produced therefrom are continuously increased.
The "Diboride Magnesium Superconducting Wire and Magnet Preparation Technology" selected and distributed by the Northwest Institute of Nonferrous Metals is a frontier exploration topic approved by the Ministry of Science and Technology for the "15th Five-Year Plan" and "863" Plan for Superconducting Materials and Technology Research. Lower-priced materials have a wider application space than low-temperature superconductors.