OEM ODM CNC Machining Aluminum Part Custom CNC Milling Parts CNC Machining Service

6061 7075 Turning Aluminum CNC Machining Service Aluminum Alloy Turning

Milling Compound Aluminum Custom CNC Metal Parts

We specialize in the custom CNC machining of aluminum parts, offering comprehensive

aluminum machining services.

Our capabilities include advanced CNC turning and milling machines, along with surface

treatment technologies, allowing us to provide all-in-one machining solutions.

We meticulously meet the specified functional dimensions and surface treatment requirements

outlined in the customer's drawings.

Product Details

Aluminum is one of the most widely used metals globally, valued for its exceptional

strength-to-weight ratio, affordability, and recyclability.

Aluminum Finishing and Post-Processing

Aluminum can also be anodized for additional surface protection and aesthetic finishes.

Applications of CNC Aluminum Parts

Our aluminum parts are precisely tailored to match the specific needs of various applications,

such as automotive precision components, precision motor parts, medical instrument components,

power tool parts, machine components, high-end electronic devices, home appliance parts,

and more.

Company Profile

FAQ's

1. How much does it cost to CNC Aluminum?

The cost of CNC machining aluminum can vary based on several factors, including the complexity

and size of the part, as well as the type of aluminum used. These variables influence the choice of

machining equipment, production time, and the price of raw materials.

2. Advantages of using Aluminum

In addition to its excellent machinability, aluminum demonstrates many characteristics that make

it suitable for use in machining operations, such as:

1. Excellent corrosion and chemical resistance
2. High strength-to-weight ratio
3. Good heat and electrical conductivity
4. Easily machined
5. Reflects heat and light

3. What is Anodizing used for?

Anodizing is a process that forms an aluminum oxide layer on the surface of an aluminum alloy,

significantly enhancing its wear resistance due to the hardness of aluminum oxide.

Anodized aluminum finds applications in scenarios where wear resistance is crucial, such as

components constantly in motion and in contact with other materials.

Common applications include coupling bodies, stop flanges, and valves.

Dyeing is another popular application of anodized aluminum. The porous nature of the aluminum

oxide layer created during anodization allows certain dyes to be absorbed, enabling the

customization of colors for aluminum alloys.

This opens up possibilities for dyeing anodized aluminum in products like knobs and body housings.

Furthermore, aluminum oxide, being less conductive than aluminum, can serve as electrical insulation.

This feature finds utility in applications like electric car battery terminals and cable pins,

where electrical isolation is essential.