Customized Various High Precision Iron Auto Parts by Powder Metallurgy

- Aug 19, 2019-

Product Description


   MIM (Metal Injection Molding), CNC machining, PM(Powder metallurgy)

   CNC machining, Turning, Milling, Stamping, Grinding, Welding, Lathing, Cutting, 

   Die casting, forging,  cnc turning ,casting ,sintering ,bending , Painting

Material capacity
    Aluminum: 5000series(5052...)/6000series(6061…)/7000series(7075…)
    Steel: Carbon Steel, Middle Steel, Steel Alloy, etc. Stainless Steel: 303/304/316,etc.
    Copper/Brass/Bronze/Red Copper, etc.
Surface treatment   
    Avaliable for Anodic treatment, electroplate, Zinc plating , black oxide finish
    Customized Sizes /According to Customer's drawing or samples
    PM: 0.01mm;  CNC : 0.001mm-0.006mm  
Testing equipment 
    Thickness gauge, microscope, Altimeter, Endoscopy,Full-testing

CCD Electroplate Testing
    Salt spray test; Potassium sulfide; Adhesion
QC system   
    100% Inspection Before Shipment
    Natural, Requested, Customized
    GJB 9001C-20XX
   Standard Packing/pp bag+carton, or as per customers' request.

   Automobile, motorcycle, textile machinery, industrial sewing machine, power tools, 

   hardware tools, electrical appliances, engineering machinery  



For the production process as follow:

1.  Metal powder mixed 2.  Pressing fabrication 3.  Sintering production
4.  Oil immersion 5.  Products shaping 6.  Precision machinning
7.  Steam treatment 8.  Inspection  9.  Packaging and delivery


   2.What is MIM technology?

    Metal injection molding process lie in its capability to produce mechanical properties nearly equivalent to

    wrought materials, while being a net-shape process technology with good dimensional tolerance control. Metal

    injection molded parts offer a nearly unlimited shape and geometric-feature capability, with high production 

    rates possible through the use of multi-cavity tooling

   3.Is the metal melted during the molding process?

    No, only the binders are melted allowing the powders to flow like a plastic material. Upon cooling the binders

    solidify giving the part strength for handling. The part must be subsequently sintered to high density to achieve

    the requirde mechanical properties.

   4.Why should I use MIM?

    MIM escels in producing small, highly complex parts that are difficult or cost prohibitive to produce with 

    convertional technologies such as machining or casting.