1. Extremely high design freedom

Compared with other metal forming methods, the MIM can be used to make more complicated parts, and almost all the structures that can be realized in an injection mold can be applied to the MIM

2. More material selection

The MIM can use almost all metallic materials, and for economic reasons, the main application materials include iron, nickel, copper, titanium base or alloys.

3. Excellent physical and chemical properties

Because the sintering density of the MIM is very close to the theoretical density, its physical and chemical performance is also very good, such as mechanical strength, greatly beyond the traditional powder metallurgy.

4. Exquisite appearance

The surface roughness (Ra) of MIM sintered billet can be up to 1 × m, and the appearance effect can be obtained by various surface treatment methods.

5: higher dimensional accuracy

Generally, MIM can achieve tolerance accuracy of ± 0.5%. With other processing methods, higher dimensional accuracy can be achieved.

6. Strong and flexible capacity for mass production

The MIM has the flexibility to adjust and increase production quickly, from a few hundred pieces per day to hundreds of thousands per day.

7: the processing concept of environmental protection

The utilization rate of raw materials is close to 100%, which is a kind of near-net forming technology, which can effectively avoid material waste.