Why Choose Our Automotive Industry Manufacturing Services
System Certified Enterprises
-ISO 9001 -ISO 13485 -ISO 16949
Specialized Manufacturing Capabilities
CNC machining (including 3- and 5-axis), milling and turning Injection Molding, Sheet Metal Stamping, Die Casting, Forging Over 60+ metals and plastics Top-notch product reprocessing capabilities
Comprehensive Quality Processes
-Material Test Reports -Material Certificates -Certificates of Conformance -First Article Inspections -CMM Inspection Report -Full Dimensional Inspections
Highest Quality Standards
-Special tooling -Sample size inspection -Dimensional checks with calibrated equipment -Review of all quality documentation
Top Medical Devices And Hardware Applications
Customized Tool Holders and Chassis for Medical Manufacturing Medical testing devices Implantable prototypes Surgical instruments Personal protective equipment Ventilator parts
Top Medical Devices Manufacturing Capabilities
CNC Machining
Injection Molding
Sheet Metal Stamping
Die Casting
Forging
Medical Devices Components Materials
01 Titanium
Titanium alloy is widely used in medical accessories, mainly because of its good biocompatibility, greater strength, smaller modulus of elasticity, good corrosion resistance and cutting and machining properties.
02 Stainless Steels
Stainless steel has good biocompatibility with the human body, as well as excellent mechanical properties, including high strength, high hardness and good abrasion resistance, and is able to maintain excellent corrosion resistance in the human body in order to reduce the dissolution of metal ions, and avoid intergranular corrosion, stress corrosion and other localized corrosion phenomena.
03 Thermoplastic Plastics
Thermoplastics are highly durable, flexible and functional materials used in the manufacture of medical products. They have excellent resistance to corrosion, washing and chemicals, making them last longer than other typical medical materials. Thermoplastics also adhere very well to metals, so they can be used to overmold medical prototypes for improved functionality.
04 Nylon
Polyamide materials offer increased strength, high temperature resistance and chemical resistance, which are essential for medical devices. It is also compatible with processes such as injection molding, CNC machining and 3D printing. We can also combine nylon with other medical-grade materials for added strength.
05 Thermoset Plastics
Thermoset plastics are highly heat resistant and will not warp or creep at high temperatures. This makes them an excellent choice for medical devices that may require continuous sterilization. They are also relatively hard and rigid, with excellent dimensional stability to ensure precise and accurate components.
Surface Finishing Of Aerospace Parts
01 Anodizing
Surface treatment technology that generates a protective layer of metal oxide film on the surface of metal materials through electrolysis. This treatment can enhance the surface coloring, corrosion resistance, abrasion resistance, hardness, and play a protective role on the surface of the material.
02 Micro-Arc Oxidation
On the surface of non-ferrous metals and their alloys using micro-arc area instantaneous high temperature sintering effect, in situ growth of ceramic oxide film protective layer of surface treatment technology. Micro-arc oxidation to overcome some of the shortcomings of anodic oxidation, the generation of ceramic oxide film has a strong bond with the substrate, high hardness and strength, good insulation, wear-resistant, corrosion-resistant, heat-resistant and so on.
03 Electroplated
Electrochemical reactions in a solution with the aid of an external electric current result in the deposition of a metal or alloy on the surface of a conductor. Electroplating is capable of treating the surfaces of complex devices and is therefore widely used for surface protection of aerospace-related materials.
04 Hot Spraying
Materials (such as metals or ceramics) are melted into tiny particles by means of a high-temperature, high-speed air stream and then sprayed onto the surface of the part to form a protective layer.