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As a forward-looking and strategic technology, additive manufacturing mainly targets high-end fields such as aerospace, armaments, automobiles, molds, and biomedicine. It directly manufactures 3D complex structures and solves manufacturing problems that are difficult or even impossible to process in traditional manufacturing processes. Due to its strong engineering applicability and large field span, it is very important for the development of the future manufacturing industry, especially high-end manufacturing. However, on the whole, domestic and overseas additive manufacturing research and industry are still at the initial stage, and a complete industrial chain has not yet been formed. The lack of performance of the existing additive-manufacturing special-purpose materials, the less variety, and the higher cost are the weak points that restrict the promotion of additive manufacturing technology, and seriously limit the industrialization and application of additive manufacturing technologies.
The Additive Manufacturing Research Team of the Ningbo Institute of Industrial Technology, Chinese Academy of Sciences, aims at the demand for multi-variety, high-performance 3D printing materials in the direct molding industry of difficult-to-handle and individuated parts and components in the fields of aerospace, automotive engines, and medical care, combined with the large-scale production of 3D printing materials in China. As for the key issues facing the molding industry, the goal is to establish the generalization and specialization of the production of additive manufacturing materials, and to conduct in-depth research on high-performance polymer and ceramic materials for 3D printing. Recently, the team developed glass fused deposition forming materials and process technologies for personal and desktop 3D printing markets such as crafts and creative displays, and developed high-temperature-resistant high-precision Al2O3 ceramic nozzles and table-top forming equipment for glass high-temperature fusion molding processes. (Prototype) By optimizing the 3D printing process, high temperature conditions and process stability have been solved, and a variety of micro-structures have been successfully formed with feature sizes up to 50 μm.
Ningbo Institute of Glass 3D printing technology has made the latest progress
With the development of 3D printing technology, 3D printers are becoming more and more familiar to people. Ningbo Materials has made research and innovation on the materials it needs and has made new progress.