Custom CNC Lathe Machining Service Copper Auto Parts CNC Turning Parts Servise
CNC machining is a form of subtractive manufacturing that automatically removes material from
raw stock based on computer-generated instructions.
Typically, CNC machines are categorized into two types: one that keeps the raw stock stationary
while rotating the cutting tool, and the other that rotates the raw stock while moving it against a
stationary tool.
Various adaptations and hybrids of these methods are employed to create parts with complex
features.
Product Details
Common Copper Materials | |
No. | Properties |
Copper C110 | Copper (C110) is a pure at 99.90% copper alloy, with universal for electrical applications high thermal conductivity and good corrosion resistance. |
Copper C101 | Copper (C101), 99.99% pure, is a copper alloy with excellent conductivity and high corrosion resistance and toughness. |
We specialize in the production of custom-made products and offer surface treatment services
tailored to meet our customers' specific requirements and industry standards.
Our comprehensive solutions are both efficient and cost-effective, making us a one-stop
destination with the capacity and capability to provide integrated services.
Name | Machining Marks |
As machined | Visible, light surface scratches |
Smooth machining | Visible, light surface scratches |
Fine machining | Slightly visible |
Polishing | Removed on primary surfaces |
Bead blasting | Removed for non-cosmetic, removed on primary surfaces for cosmetic |
Brushing | Reduced for non-cosmetic, removed on primary surfaces for cosmetic |
Powder coating | Removed |
CNC Machining Applications
1. Sensor Parts 2. Auto Parts 3. Respirator Parts
4. Power Tools 5. Hydraulic Parts 6. Aircraft Parts
7. Dental Handpieces 8. Drone Parts 9. Motor Parts
10 .Bicycle Parts 11. Robotic Parts 12. Appliance Parts
Company Profile
FAQ's
1. A quick guide to CNC machining parameters
Machining parameters in CNC are primarily established by the machine operator during the
generation of G-code. Key parameters include the build size and accuracy of CNC machines,
distinguishing them notably from 3D printers.
CNC milling systems boast a substantial build area, with the capability to machine parts up
to 2,000 x 800 x 100 mm (78” x 32” x 40”). Meanwhile, CNC turning systems specialize in
machining parts with a diameter of up to Ø 500 mm (Ø 20’’).
Precision and tight tolerances are hallmarks of CNC machining. Achieving accuracy levels
surpassing half the diameter of an average human hair (± 0.025 mm or .001’’) is well within
the capabilities of CNC machines. In the absence of specified tolerances in the technical drawing,
operators typically machine parts with an accuracy of 0.125 mm (.005’’).
2. How much does CNC machining cost?
The cost of CNC machining is determined by factors such as complexity, quantity, and lead time.
To obtain an accurate cost estimate, we recommend submitting a 3D CAD model.
This allows us to provide an interactive quote and offer design for manufacturability (DFM)
feedback. Notably, our use of proprietary software and automated fixturing processes eliminates
upfront non-recurring engineering (NRE) costs.
This approach ensures that even for quantities as low as 1 to 200 parts, CNC machining remains
a cost-effective option. While prices may be comparable to or slightly higher than 3D printing,
CNC machining provides enhanced material properties and surface finishes, making it a valuable
choice.
3. Why choose CNC machining?
CNC machining offers several advantages, making it a preferred manufacturing solution:
1. Speed: CNC machining is known for its rapid production capabilities, allowing for the quick
creation of end-use parts.
2. Accuracy: The precision of CNC machining ensures high-quality and accurate parts, meeting
tight tolerances and specifications.
3. Versatility: CNC machining is a versatile process suitable for a wide range of materials and
part complexities. It can handle various geometries and designs.
4. Cost-Efficiency: Unlike traditional manufacturing methods, CNC machining doesn't require
expensive hard tooling or elaborate set-ups, contributing to cost savings.