Brackets & Frames CNC Machining for Automation Industry
- Machining for intricate bracket and frame geometries.
- Tight tolerances as low as ±0.005 in.
- Advanced milling, drilling & welding prep.
- Rapid prototyping and full-scale production support.
- ISO 9001-certified automation manufacture.
Automation Brackets & Frames Machining Capabilities
Fast Delivery
A professional engineering team that can respond quickly to customer needs and provide one-stop services from design to production in a short period of time to ensure fast delivery.
High Precision
We are equipped with automated equipment and sophisticated measuring tools to achieve high accuracy and consistency, ensuring that every part meets the most stringent quality standards.
ITAF16949 Certified
As a IATF16949 certified precision manufacturer, our products and services have met the most stringent quality standards in the automotive industry.
From Prototyping to Mass Production
Prototype Brackets & Frames
Key Points:
Create and refine multiple prototypes quickly and accurately.
Able to achieve close tolerances to within ±0.005 in.
Evaluate design, material, and load capacity in the earliest stages.
EVT – Engineering Validation Test
Key Points:
Confirm prototype functionality.
Rapid design iteration for engineering validation.
Ensure readiness for production.
DVT – Design Validation Test
Key Points:
Assess design integrity and rigidity.
Range of materials and configurations.
Ensure production-ready performance.
PVT – Production Validation Test
Key Points:
Test large-scale production systems.
Solve production problems.
Ensure consistency in part quality.
Mass Production
Key Points:
Producing at a high volume consistently
With industrial-grade quality Precision Machining
Quick, strict quality control turnaround
Simplified Sourcing for
the Automotive Industry
Explore Other Automation Components
Browse our complete selection of CNC machined automation components, engineered for accuracy and long-lasting operation. From precision shafts and brackets to robotic frames, housings, and end effectors, we deliver tailored solutions to support automation, robotics, and smart manufacturing technologies.
Car Parts
Machining Capabilities
Aerospace
Materials & Finishes
Specialist Industries
Materials for Brackets & Frames Components
High machinability and ductility. Aluminum alloys have good strength-to-weight ratio, high thermal and electrical conductivity, low density and natural corrosion resistance.
Steel is a strong, versatile, and durable alloy of iron and carbon. Steel is strong and durable. High tensile strength, corrosion resistance heat and fire resistance, easily molded and formed. Its applications range from construction materials and structural components to automotive and aerospace components.
Stainless steel alloys have high strength, ductility, wear and corrosion resistance. They can be easily welded, machined and polished. The hardness and the cost of stainless steel is higher than that of aluminum alloy.
Titanium is an advanced material with excellent corrosion resistance, biocompatibility, and strength-to-weight characteristics. This unique range of properties makes it an ideal choice for many of the engineering challenges faced by the medical, energy, chemical processing, and aerospace industries.
Highly resistant to seawater corrosion. The material’s mechanical properties are inferior to many other machinable metals, making it best for low-stress components produced by CNC machining.
Brass is mechanically stronger and lower-friction metal properties make CNC machining brass ideal for mechanical applications that also require corrosion resistance such as those encountered in the marine industry.
Few metals have the electric conductivity that copper has when it comes to CNC milling materials. The material’s high corrosion resistance aids in preventing rust, and its thermal conductivity features facilitate CNC machining shaping.
Zinc is a slightly brittle metal at room temperature and has a shiny-greyish appearance when oxidation is removed.
Iron is an indispensable metal in the industrial sector. Iron is alloyed with a small amount of carbon – steel, which is not easily demagnetized after magnetization and is an excellent hard magnetic material, as well as an important industrial material, and is also used as the main raw material for artificial magnetism.
Due to the low mechanical strength of pure magnesium, magnesium alloys are mainly used. Magnesium alloy has low density but high strength and good rigidity. Good toughness and strong shock absorption. Low heat capacity, fast solidification speed, and good die-casting performance.
FAQs: Brackets & Frames for Automation Applications
Anodizing (Type II and Type III)
Passivation for corrosion resistance
Precision polishing for aerodynamic surfaces
Custom protective coatings and thermal barriers
Rapid prototyping for design validation
Low-volume production for specialized applications
High-volume production with consistent quality control
Full structural and dimensional verification at every stage
