This is an archive of our webinar about ”What is μ-MIM?”  In this webinar, we describe the difference between μ-MIM and conventional MIM.MIM stands for metal injection moulding and it is a powder metallurgy method for manufacturing metal parts.

If you are interested in next-generation MIM technology, please have a look.

  • 00:00  Introduction
  • 00:33  About us
  • 03:40  Metal injection moulding process
  • 06:17  Product overview
  • 10:25  µ-MIM® applications
  • 15:33  Integrated helical gear
  • 16:32  Internal helical gear
  • 17:45  Micro nozzle
  • 18:44  3D-µMIM technology
  • 20:26  Latest AM technology
  • 22:24  End


Cracking, slumping or blistering is commonly observed due to the binder swelling and/or residual stress difference between the surface and interior. It is possible to avoid these problems by selecting appropriate organic solvents and temperature control.

The catalytic deboning uses sublimation of binder, thus it is possible to decompose the binder in relatively short processing time with minimizing the deformation. However, with a strong acidic atmosphere, theapplicable metal material option is limited.

In the sintering process, the necking, which is bridging the metal powders by thermal diffusion, starts at the sintering temperature. Once the necking starts, the shrinking is observed and increases the density, thus before starting the necking reaction, all the organic components should be decomposed and gas between the powders should be removed. In the sintering process, the unwanted chemical reaction, such as oxidation or carbonization, leads to mechanical property loss, therefore a precise atmosphere control with low heating rate at the beginning of the process is required. Also, when it reaches the sintering temperature, some add it vegetal can be evaporated.

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