Metal injection molding: The aerospace sector has always been considered an important potential market for MIM. Although the pace of market expansion is slightly slow due to the lack of basic process understanding and strict verification requirements, the development of major R & D institutions has not stopped.

For example, the IN713LC high-temperature alloy stator blade, which is a new generation of high-performance MIM components developed by Rolls-Royce's Enrico Daenicke and SchunkSinter lltechnik GmbH, is now in good operation in Rolls-Royce aero engines.

Ceramic injection molding: Ceramic injection molding originated from a hot die-casting technology in the 1920s. It has become the fastest-growing and most widely used ceramic molding technology in the world today. It has the advantages of powder injection molding and has the advantages of technology and process. Many advantages are one of the high-precision and high-efficiency forming methods in the existing ceramic forming technology.

Powder microinjection molding: Powder microinjection molding technology has made great progress in the application of micro metal and ceramic component molding. In particular, the application of this technology in metal forming enables micro-components to obtain high strength, good corrosion resistance, high temperature stability, excellent magnetic properties, and abrasion resistance. Using this technology can save expensive assembly costs for micro-components.

The German IFAM Institute mainly researches micro-injection molding products used in chemical, fluid, biomedical, etc., and also includes wear-resistant micro parts and molds made of hard alloy powder, and co-sintering and co-connection of two or more injection blanks Question; Karlsruhe Research Center applies micro-injection molding to manufacture micro structural components such as gears and micro optical benches.