MIM 3D printing
Metal injection molding (MIM) is a powerful manufacturing process for the mass production of metal parts, but in recent years Binder Jetting 3D printing (3DP) has also provided a compelling alternative due to its unique advantages.
In the binder jetting 3d printing process, a binder is sprayed layer by layer onto a metal powder to create a metal part, which is then completed by sintering. This capability facilitates mass production because many parts can be freely nested in a single manufacturing.
MIM is a complementary process to mim 3D printing, both of which use metal powders as feedstock and sintering processes. In addition to the conventional MIM technology, JH MIM has also introduced binder injection technology to enhance metal additive manufacturing (AM) capabilities.
The main difference between binder jetting 3d printing and metal injection molding is that binder injection technology is a method of instant production, and MIM 3D printing technology is an excellent supplementary solution in the trial production stage of small batches; MIM technology based on mold production is essentially a high-volume process.
On the other hand, the metal injection molding process is a supplement to the metal injection molding 3d printing. Since JH MIM has purchased a large amount of metal powder for MIM orders, these materials can also be applied to binder jetting 3d printing.
, which is more cost-effective than other 3D printing users can buy materials. In addition, sintering furnaces already used for MIM components can also perform the same steps (degreasing and sintering) for MIM 3D printing, the expertise in metallurgy is the same, and MIM and MIM 3D printing can be well combined.
Specifically, regulatory approval of a new medical device often requires the validation of hundreds of initial trial parts, and binder jetting 3d printing technology can meet the needs of medical device development.
This metal product is a 3D printing titanium injection molding manufactured by JH MIM. Its main advantage is that it is relatively light in weight and is used for special high-end equipment, which requires CNC polishing in the later stage.
3D printing titanium
Yes, this is a routine operation for most companies before making an inquiry.
We have metal 3D printing equipment and can provide sample 3D printing.
3D drawings allow engineers to better understand the structure of the product, and 2D documents can provide more information, including materials, tolerances, surface treatment, etc. More detailed information is conducive to more accurate quotation by engineers.
In the case of detailed inquiry drawings and information, it usually only takes 2-3 days for us to give you a detailed quotation, including product price and mold price.
After confirming the order, we usually take 5-7 days to prepare the DFM report of the product. After confirmation, we spend 25 days to complete the mold, and provide T1 samples to customers for testing in the following 10-15 days.
If there is a problem with the test, we will re-sample it for free based on the feedback and provide a suitable sample.
MIM products MOQ 2000 PCS,
CNC products MOQ 2000 PCS,
Alu die casting, MOQ 2000 PCS
PM product MOQ 5000 PCS
Typically, the lead time for processing and submitting samples is 30 days. However, according to the order quantity and special requirements of customers, we can extend or shorten the delivery cycle accordingly.
1-year product warranty
World-class testing equipment
30+QC Workers
Key sizes 100% checking before shipment
ISO9001+IATF16949
Usually T/T is used as the payment method
Mold: 50% deposit, 50% payment after confirming the sample.
Bulk production: 30% deposit, 30% see bill of lading Copy, pay 70% balance.