As a custom CNC milling parts supplier specializing in iron, we offer one-stop custom CNC machining services, equipped with 100 advanced CNC machines, and provide a wide range of material and surface treatment options. Below are the CNC machining services, advantages, materials, and surface treatments we offer:
Custom CNC Machining Services
1. Part Design and Prototype Customization:
Provide 3D design services for parts based on customer requirements.
Customize prototype parts, supporting production from small to large batches.
2. CNC Milling:
Use CNC milling machines and machining centers for high-precision flat profile milling and curved profile milling.
Perform various processes including drilling, reaming, tapping, boring, and threading.
3. Multi-material Processing:
Support processing of various metal materials such as steel, aluminum, and copper.
Select suitable materials for processing based on the specific use and performance requirements of the parts.
4. High Precision Machining:
Use high-precision CNC systems to ensure machining accuracy reaches micron level.
Avoid operator errors and improve the stability of machining quality.
5. Production Automation:
Achieve production automation to reduce operator labor intensity.
Shorten production cycles and improve production efficiency.
Advantages of CNC Machining
1. Strong Adaptability and Flexibility:
Capable of machining parts with particularly complex contours or difficult-to-control dimensions, such as mold parts and casing parts.
Meet the personalized needs of different customers.
2. High Machining Precision and Stable Quality:
The pulse equivalent of CNC devices is generally 0.001mm, and high-precision CNC systems can reach 0.1μm.
Ensure the dimensional accuracy and surface quality of machined parts.
3. High Production Efficiency:
CNC milling machines integrate the functions of milling, boring, and drilling machines, leading to highly concentrated processes.
The spindle speed and feed rate are infinitely variable, facilitating the selection of optimal cutting parameters.
4. High Degree of Production Automation:
Reduce operator labor intensity and improve production efficiency.
When changing workpieces, only the machining program, clamping tools, and tool data stored in the CNC device need to be called.
III. Provided Materials and Surface Treatments
Materials:
1. Steel:
Good wear resistance and strength, suitable for parts that need to withstand high pressure and friction, such as bearings, shafts, and gears.
2. Aluminum:
Lightweight, corrosion-resistant, and good thermal conductivity, commonly used in the manufacturing of aircraft, automobiles, and mobile phones.
3. Copper:
High density and electrical conductivity, suitable for applications requiring electrical conductivity and corrosion resistance, such as electronic equipment and ships.
Surface Treatments:
1. Anodizing:
Increases the thickness of the natural oxide layer on aluminum surfaces, improving corrosion resistance, wear resistance, and paint adhesion.
2. Metal Plating:
Coats or alters the surface of the substrate with a thin layer of metal, enhancing the product's durability, corrosion resistance, surface friction, and appearance.
3. Chemical Plating:
Uses autocatalytic practices to apply a uniform metal layer to the substrate, improving corrosion resistance, oxidation resistance, and wear resistance.
4. Powder Coating:
Melts dry plastic powder onto the metal, forming a textured, matte, or glossy coating, enhancing the weather resistance and aesthetics of the parts.
If you have CNC machining parts project needs, we can provide free DFM analysis and 1-on-1 engineering support services. Please contact us immediately; we are available 24/7.