Automotive
Master the challenges of ever-evolving development cycles in traditional, electric, and autonomous vehicle manufacturing with our agile rapid prototyping and flexible low-volume production solutions
Why
Choose Us?
Speedy Delivery
We ensure a swift process, from personalization to delivery of your desired product.
Genuine Interaction
Our personalized, one-on-one service guarantees tailor-made solutions for your requirements.
Round-the-Clock Service
Our team is available for consultation services around the clock. We’re delighted to serve you, and you can get in touch with us anytime.
Effective Team
Composed of a skilled and professional team, we prioritize genuine relationships and trust, delivering satisfaction throughout every collaboration.
Experienced Manufacturer
Our facility is equipped with a diverse selection of more than 30 precision CNC processing devices, high-accuracy Hexagon CMM three-coordinate measuring systems, projectors, roughness gauges, and a variety of general precision measurement tools and purpose-built inspection equipment.
Superior Quality
In 2016, we obtained both the ISO9001:2008 and TS16949 quality system certifications, followed by the IATF quality system transition audit certification later in the year.
Materials
& Surface
Materials for medical devices
Here are the most commonly used materials, and there are more materials to choose from.
Carbon steel: 1020, 1045, A36, C45;
Stainless steel: 304, 316, 420;
Aluminum alloy: 6063, 6061, 7075;
Copper alloys: C11000, C10100;
Thermoplastics: PC, ABS, PAI, POM, PEEK, PVC;
Thermosetting Plastics: UPR, GFRP;
Surface finishes for medical devices
There can be multiple color options for the following surface treatments
Anodizing :Regular , Hard;
Electrolytic plating :Zn, Ni, Cr;
Chemical plating :Ni;
Spray paint: Plastic,Metallic;
Polishing: Electrochemical, Fluid;
Heat treatment: Aging, Tempering, Surface Hardening;
Passivization: Chemical, Electrochemical
Materials for medical devices
Here are the most commonly used materials, and there are more materials to choose from.
Carbon steel: 1018, 1045, A36;
Stainless steel: 304, 316, 420, 17-4H;
Aluminum alloy: 6061, 6063, 7075;
Copper alloys: C11000, C36000, C93200;
Thermoplastics: PC, ABS, PEEK, PTFE, PVC;
Surface finishes for medical devices
There can be multiple color options for the following surface treatments
Anodizing :Regular, Hard;
Electrolytic plating :Zn, Au, Cu, Cr;
Chemical plating :Ni;
Spray paint: Plastic,Metallic;
Polishing: Mechanical, Chemical, Ultrasonic;
Heat treatment: Solution treatment, Quenching, Tempering;
Passivization: Chemical, Electrochemical;
Materials for medical devices
Here are the most commonly used materials, and there are more materials to choose from.
Carbon steel: 1010, 1018, A653;
Stainless steel: 301, 303, 304;
Aluminum alloy: 2024, 5052, 6061, 6063, 7075;
Copper alloys: C36000, C11000, C51000;
Thermoplastics: PC, ABS, PA66, PE, PP, PVC;
Thermosetting Plastics: PF, GFRP, SR;
Surface finishes for medical devices
There can be multiple color options for the following surface treatments
Anodizing :Regular , Hard;
Electrolytic plating :Zn, Ni, Sn, Cu;
Chemical plating :Ni;
Spray paint: Plastic,Metallic;
Polishing: Mechanical, Chemical, Ultrasonic, Grinding;
Heat treatment: Solution treatment, Aging;
Passivization: Chemical, Electrochemical
Materials for medical devices
Here are the most commonly used materials, and there are more materials to choose from.
Carbon steel: 1020, 1045, A36, 4140, H13, D2;
Stainless steel: 304, 316, 420;
Aluminum alloy: 2024, 6061, 7075;
Copper alloys: C11000, C36000;
Thermoplastics: PEEK, POM, PET, PE, PP, PVC;
Thermosetting Plastics: UPR, GFRP, etc
Surface finishes for medical devices
There can be multiple color options for the following surface treatments
Anodizing :Regular , Hard;
Electrolytic plating :Zn, Cr;
Chemical plating :Ni;
Spray paint: Plastic;
Polishing: Mechanical, Ultrasonic, Grinding;
Heat treatment: Tempering, Quenching, Surface Hardening;
Passivization: Chemical, Electrochemical
Automotive
Applications
The manufacturing of automotive parts usually uses high-strength, wear-resistant, corrosion-resistant and high-temperature resistant materials, and the dimensional accuracy, geometric tolerance and surface roughness usually need to meet stricter standards. Automotive parts should have good corrosion resistance to withstand harsh environments and chemical corrosion, which is very important in coating, surface treatment and material selection.
Engine System
Chassis System
Body and Exterior Components
Cooling System
Exhaust System
Fuel System
Auto
Manufacturing skills
CNC Milling
CNC milling is a machining process that uses computerized controls and cutting tools to selectively remove material from a workpiece…
CNC Turning
CNC turning is a machining process that uses computerized controls and a non-rotating cutting tool to remove material from a rotating…
Sheet Metal
Sheet metal fabrication is the process of forming metal sheets to the desired shape using different manufacturing methods, such as cutting…
Metal Stamping
Metal stamping is a manufacturing process that forms a metal sheet into a desired shape using a metal stamping die. The stamping process can use…
Auto
Parts Gallery