Hunan, China
Business Type:
Manufacturer/Factory & Trading Company
Number of Employees:
140
Year of Establishment:
2000-05-31
Management System Certification:
ISO 9001:2015 Certificate, IATF 16949:2016 Certificate
OEM/ODM Service
Sample Available

Turbocharger Vnt Vane, Turbo Vnt Nozzle Ring, Turbocharger Vnt Fork manufacturer / supplier in China, offering Metal Injection Molding MIM Pim Remanufactured Diesel Engine Parts for Auto Aftermarket, Carbide Cutting Picks for Rotary Digging Machine with MIM Parts, Carbide Cutting Picks for Pavement Milling Machine and so on.

Diamond Member Since 2017
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Supplier Homepage Products Variable nozzle ring assembly Metal Injection Molding MIM Pim Remanufactured Diesel Engine Parts for Auto Aftermarket

Metal Injection Molding MIM Pim Remanufactured Diesel Engine Parts for Auto Aftermarket

Get Latest Price
Min. Order / Reference FOB Price
100 Pieces US $0.7-5/ Piece
Port: Changsha, China
Production Capacity: 2millions PCS/Month
Payment Terms: L/C, T/T, Western Union, Paypal
Appilcation: One-Step Service Supplier for Metal Injection Mold
Finish: Nature
Process: Metal Injection Molding
Mould: Forming Die
Service: One-Step Service
Transport Package: Canton, Plastic Bag, Export Package

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Basic Info

Trademark
Injection
Specification
Material: stainless steel
Origin
China
Founded in 2000, HUNAN INJECTION HIGH TECHNOLOGY CO., LTD is one of the first and professional MIM(metal injection molding) researcher and manufacturer in China. Taking advantage of the technical power from Powder Metallurgy State Engineering Research Center of Central South University, Hunan Injection mainly focuses on R&D, manufacturing and sales of all kinds of MIM precision metal/ceramics components for medical devices, auto, communication, hardware and military industries.

We have gotten ISO9001:2015, IATF16949:2016 in auto industry, and won warm praise from NIKE, Ford, Honeywell, Getrag, New Phoenix and Parasole etc.

MAinly Support to

 
AerospaceAirfoil Hinge,Rocket Nozzle,Guided Missile Spoiler,Turbine Blade Core
Auto IndustryIgnittion Control Lock Parts,Turbo Charger Rotor,Valve Guide Rail,Break Gear Parts and Sun Block Shack Parts
ElectronicsDisc drive parts,Cable Connector,Electronic Valve Shell,Computer Print Head,Electronic Packaging Parts and Heat Sink Material
War IndustryMine Rotor,Gun Trigger,Armor Piercer,Sight Base,Flechette Arrow and Shrapnel
Medical IndustryOrthopaedic Bracket,Internal Sewing Needle,Biopsy Forceps,Radiation-proof Cover
Daily NecessitiesWatch Shell,Watch Belt,Watch Buckle,Golf head and Ball Seat,Sport Shoe-buckle,PE Mechanical Parts,Hole Puncher,Fish Catch and Bias Hammer
Mechanical IndustryIrregular Milling Cutter,Cutting Tools,Micro Gears and Sewing Machine Parts



Metal Injection Molding Material: 
 
MIM materialDensity 103kg /m3HardnessTensile strengthElongation%
Iron-based alloyPIM46007.6885HRB40025
PIM46507.68100HRB60015
Stainless steel316L/304/17-4/HK307.9452HRB58045
Tungsten alloy95%W18.1HRC3193010
97%W18.5HRC338906
Carbide alloyYG8X14.9HRA90  
 

FAQs

1.  What is MIM technology?
MIM (Metal Injection Molding) is a manufacturing technology that combines the shape making complexity of Plastic Injection Molding with the material flexibility of Powder Metallurgy.
 
2. 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 required mechanical properties.
 
3. How does MIM differ from the Conventional PM process?
Conventional PM uses high, uniaxially applied pressure to coarse metal powders in a die set to produce moderately complex components. Typically, no further densification is gained during the sintering process. Densities achieved by this method are typically in the range of 80-90% of theoretical which limit the physical properties that can be achieved for the given alloy. MIM products are not limited in shape complexity due to the flexibility of the injection molding process. The fine metal powders used - combine with higher sintering temperatures to allow MIM to achieve near full density in the final article. This allows MIM products to have similar properties as wrought materials. 
 
4. Does the part shrink during removal of binders?
No, the part will not change size in the debinding phase of the process. However, since sintering achieves near full density of the powders, the part will undergo a size change of up to 20%. 
 
5. Why should I use MIM?
MIM excels in producing small, highly complex parts that are difficult or cost prohibitive to produce with conventional technologies such as machining or casting.



 

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