Custom Copper Machining Solutions

Experience the durability of copper with our specialized machining services. Copper’s natural resistance to corrosion makes it the perfect choice for marine, plumbing, and outdoor applications, ensuring your parts withstand harsh conditions.

Copper CNC Machining

Limitations and Advantages of Copper Machined Parts

Copper AlloyAdvantagesLimitations
C11000 (ETP Copper)High electrical and thermal conductivity, good ductility, corrosion resistance.Soft, prone to deformation under stress.
C10100 (Oxygen-Free Copper)Very high purity, excellent electrical and thermal conductivity for high-tech applications.Soft, not suitable for load-bearing applications.
C36000 (Free-Cutting Brass)Excellent machinability, good strength, suitable for intricate parts.Lower conductivity, lead content may limit use.
Copper 145 (Tellurium Copper)Superior machinability, good conductivity, suitable for intricate electrical components.Slightly lower conductivity than pure copper.
C17200 (Beryllium Copper)High strength, hardness, fatigue resistance, and good electrical conductivity.Expensive, harder to machine, toxic handling required.

Custom Copper Parts and Accessories

CNC machining of copper parts is prevalent across various industries due to copper’s excellent electrical and thermal conductivity, along with its good resistance to corrosion.

Chemical Composition of Copper Alloys

Machining Quote provides a quick reference to the key chemical elements in each bronze alloy and highlights how these elements influence the alloy’s properties, which are crucial considerations for engineers and designers in selecting the right material for CNC machining projects.

Copper AlloyMajor CompositionMinor Elements
C11000 (ETP Copper)99.9% Cu0.04% O2
C10100 (Oxygen-Free Copper)99.99% CuTrace elements
C36000 (Free-Cutting Brass)61.5% Cu, 35.5% Zn3% Pb
Copper 145 (Tellurium Copper)99.5% Cu0.5% Te
C17200 (Beryllium Copper)97.8% Cu1.9% Be

Key Mechanical Properties of Copper Alloys

These properties are essential when selecting a bronze alloy for specific CNC machining projects, as they directly influence the machining process, the performance of the machined parts, and their suitability for different environments or mechanical stresses.

Copper AlloyTensile StrengthYield StrengthElongationHardnessElectrical ConductivityThermal ConductivityFatigue Strength
C11000 (ETP Copper)32,000 psi10,000 psi45%45 HRB101% IACS390 W/mK70 MPa
C10100 (Oxygen-Free Copper)32,000 psi10,000 psi40%45 HRB101% IACS390 W/mK70 MPa
C36000 (Free-Cutting Brass)58,000 psi45,000 psi15%B8026% IACS120 W/mK100 MPa
Copper 145 (Tellurium Copper)49,000 psi39,000 psi20%B40-9090% IACS200 W/mK90 MPa
C17200 (Beryllium Copper)150,000 psi110,000 psi5%C3622% IACS105 W/mK250 MP

Different Types of CNC Machining Copper

At Machining Quote, we elevate CNC machining of copper to new heights, offering tailored CNC turning and CNC milling solutions that empower you, our engineering and design partners, to push the boundaries of innovation and precision.

CNC Turning

In our CNC turning centers, copper is transformed under meticulous care to meet your most exacting specifications. We use advanced lathing techniques that allow for ultra-precise machining, crucial for applications requiring minute tolerances and high-performance outcomes.

CNC Milling

Step into the future of component fabrication with our CNC milling services, where complex 3D geometries come to life. Consistency across batches, whether for prototypes or production runs, is guaranteed by our stringent quality protocols.

Surface Finishes For CNC Copper Parts

CNC machined copper parts can be finished with various surface treatments to enhance their appearance, functionality, or durability. Here’s a simple description of common surface finishes for CNC copper parts:

Polishing: Enhances shine and smoothness.
Nickel Plating: Increases wear and corrosion resistance.
Tin Plating: Improves solderability and corrosion protection.
Passivation: Forms a protective oxide layer to boost corrosion resistance.
Brushing: Gives a uniform, satin finish.
Powder Coating: Provides a durable, protective layer.
Lacquering: Prevents oxidation and maintains natural luster.
What is the Easiest Copper to Mmachine?

The easiest copper to machine is generally recognized as Copper 110, also known as Electrolytic Tough Pitch (ETP) Copper. It has a 100% IACS conductivity, is very ductile, and not as hard as other copper alloys, making it easier to cut and shape using CNC machining methods. This makes Copper 110 a popular choice in industries requiring high precision and easy machinability.