Titanium Alloy Product Solutions
Powder Metallurgy
The advantage of MIM technology is its ability to form complex geometries in one step that are difficult to achieve with traditional machining or die casting (such as internal cavities, thin walls, and irregular surfaces). It has a very high material utilization rate (up to more than 95%) and excellent product consistency, making it ideal for large-scale production of high-value precision components in various fields.
Applicable Industries: Energy, Aerospace, Medical, Automotive, Industrial, Consumer Goods & Electronics.
TC4 Titanium Eyewear Components Complex-Shaped Metal Parts MIM Machining
OEM Ti6al4v Titanium Computer Pudding Keycap Powder Injection-Molded 3C Digital Accessories
Ti6al4v Parts Manufacturing Medical Device Titanium Alloy Syringe Components
Medical Device Accessories Titanium Alloy Medical Locking Plates Implantable Orthopedic Plates
Titanium Alloy Miniature Bolt and Nut Fasteners, Medical Components
High-Precision MIM Metal-Casting Mechanical Components Titanium Alloy Gears
Metal Injection Molded Components Titanium Alloy Drive Sprocket
Titanium Alloy MIM Metal-Formed Parts Automotive Components Pinion Gears
Corporate Luxury Business Gifts with Company Logo Titanium Metal Artwork
Anodized Multi-Color Titanium Alloy Ice Crystal Flower Tea Cup
A core competency of MIM is our ability to manufacture titanium alloy powder,design and manufacture our tooling in house. Webelieve that this is a critical asset to deliver high quality, high precision MIM products in anefficient and low cost manner. It gives us a tremendous advantage to respond to the urgentrequirements of our customers and their markets.
As a key process of KYHE TECH., it is a near-net-shape forming technology that combines the efficiency of plastic injection molding with the ability of
powder metallurgy to form complex shapes, making it suitable for high-volume, precise,and intricate metal structural components.
Mix extremely fine metal powder with a plastic/wax binder to create granular 'feedstock'.
After heating the feed material, it is injected into mold cavity like plastic iniection molding, forming the 'green part' of the component.
By methods such as heating or solvent soaking, most of the binders in the green body are removed, resulting in a fragile, porous 'brown body'.
Under high temperatures and a protective atmosphere, the metal particles in the brown compact fuse together, shrink, and densify.
Professional technical team
Free DFM analysis
High-precision
design replication
Streamline and optimize structure
Reduce product weight
72-hour quotation rapid ampling
Shorten manufacturing cycle
Integrated molding
Fast and efficient
High material utilization high manufacturing efficiency low cost
We specialize in metal injection molding for complex and high precision parts for decades. Thanks to our state-ofthe-art equipment and excllent service, our team can work closely with you to from initial design stage to full-scale production We strive to supply high quality products yet offer the competitive price.
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