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From prototypes to full-scale production, we’ve got you covered.
Copper, due to its high thermal conductivity and “gummy” nature, is among the most challenging materials to cut. This causes self-interference in the standard shop, leading to surface tearing and tool adhesion.
Our Solution: To speculate a little further, we achieved a Ra 0.4 μm surface finish & ±0.005mm tolerance using specialized diamond-coated carbide tooling and high-pressure coolant systems.
We work with a wide range of copper grades tailored to your specific conductivity and strength needs.
| Material Grade | Electrical Conductivity | Best For… |
|---|---|---|
| C10100 (OFC) | 101% IACS | Vacuum electronics, high-power semiconductors. |
| C11000 (ETP) | 100% IACS | Busbars, electrical connectors, heat sinks. |
| C14500 (Tellurium) | 93% IACS | High-speed machined electrical parts (Great machinability). |
Explore our gallery of high-quality, custom CNC-machined copper parts. See examples of our precision engineering and manufacturing capabilities for various industries.




Advanced equipment and processes to handle any copper machining challenge, from simple turned parts to complex 5-axis components.
3-axis and 5-axis milling for complex geometries, pockets, and precision features.
Precision turning for cylindrical copper components with live tooling capabilities.
Electrical discharge machining for intricate features and tight internal corners.
Complete finishing services to deliver ready-to-use copper components.
Multiple finishing options to meet functional and aesthetic requirements.
Comprehensive in-house inspection ensures every part meets your specifications.
We’ve built our reputation on delivering exceptional quality, reliability, and expertise in copper CNC machining.
Unlike general machine shops, we specialize in copper and copper alloys. Our machinists understand the unique challenges of copper—from preventing built-up edge to managing thermal expansion—and have developed proven solutions over 15+ years.
Our investment in advanced 5-axis machines, climate-controlled environment, and CMM inspection enables tolerances to ±0.01mm. We maintain consistent quality whether you order 1 piece or 10,000.
Prototype parts ship in as fast as 3 business days. Our efficient processes, dedicated copper capacity, and streamlined quoting mean your projects stay on schedule without sacrificing quality.
ISO 9001:2015 and AS9100D certified with ITAR registration. Full traceability, detailed inspection reports, and PPAP documentation available for every order.
Our engineers provide free DFM (Design for Manufacturability) feedback on every quote. We’ll suggest optimizations to reduce cost, improve quality, and ensure your design is production-ready.
From raw material to finished, inspected parts—we handle everything in-house. Machining, surface finishing, plating, assembly, and packaging under one roof for simplified supply chain management.
Delivering superior conductivity and extreme precision for your most demanding industrial applications.
Advanced 3, 4, and 5-axis machining ensuring tight tolerances up to ±0.005mm for complex copper components.
Accelerate your product development with our streamlined CNC processes, moving from CAD to copper parts in days.
Comprehensive finishing options including silver plating, tin plating, and passivation to enhance durability.
Our precision copper components serve critical applications across multiple high-performance industries.
High-conductivity copper components for power distribution, thermal management, and signal transmission applications.
Precision copper parts for electric vehicles, traditional powertrains, and thermal management systems.
AS9100 certified machining for mission-critical copper components in aviation and defense systems.
ISO 13485 compliant copper parts leveraging antimicrobial properties for medical applications.
Precision CNC-machined, high-density fins up to 0.5 mm thick, designed for high-performance computing power.
Complex internal microchannel structure with extremely low thermal resistance for cooling semiconductor and laser devices.
The Busbar for EV battery system is made of C110 high conductive copper with excellent current carrying capacity.
Medical and aerospace grade micro copper parts with tolerances within ± 0.005 mm, showing extreme precision machining capability.
Mirror finish process, Surface roughness RA < 0.2 μm, 100% burr free, suitable for optical and high frequency communications.
Customized heat exchange components designed for industrial automation, combining CNC milling and precision drilling processes.
Our streamlined process gets you from design to delivery faster with complete transparency.
Submit your CAD file (STEP, IGES, or DXF) through our instant quote platform.
Receive pricing within minutes. Our engineers review and provide DFM feedback within 24 hours.
Once approved, your parts enter production with real-time status updates available online.
Parts are inspected, packaged, and shipped with full documentation and tracking.
High-quality components with the highest thermal and electrical conductivity are produced from copper via CNC machining. That is why the majority of copper and copper alloy C101 is used in the manufacture of heat sinks, electrical contacts, and RF components. CNC-machined copper parts offer significant advantages over other metals, including a remarkable combination of conductivity, thermal performance, and corrosion resistance.
Yes, for producing complex geometries and tight-tolerance parts that are otherwise difficult to achieve with simpler machines, five-axis CNC milling is used by the machining units on copper. Combined milling and turning projects reduce setup time, thereby accelerating production and prototyping of parts machined on CNC mills from materials with superior machining characteristics, such as pure copper or copper alloys.
Opt for copper whenever you require high thermal and electric conductance for grounding or electromagnetic shielding; but always choose plastics when part weight matters, or resistance to chemicals or insulation are a must; while being a very interesting and malleable, copper is used in a host of wide applications through a variety of industries, including pure 99.99% and maximum conductivity grade C101, complemented by brass, bronze, and other high-strength or anti-corrosion alloys.
These days, a service provider can hold very tight tolerances in milling and turning that shall be complemented by precision machining-wire EDM for parts of intricate structures. Tolerances may vary according to geometry and process, but in the context of today’s machining tech, hold tight about parts machining from a CNC-controlled copper machine: the general expectation is within ±0.005″ on most parts, with the turning centers and various 5-axis mills.
The electrical and thermal conductivity of copper affects the trace dimensions, Cross-sectional area, heat dissipation, and other design calculations. The exceptionally high electrical and thermal conductivity of copper (C101/99.99% Cu) results in the lowest possible resistive losses and high performance in thermal management, so design engineers often prefer copper cables and bus bars, or components that require high conductivity and thermal performance.
The 5-axis machining and integrated processes, milling and turning, help in reducing setups, hence speeding up and translating to a shorter turnaround time and cost-effective production for complicated copper parts. The Protolabs network and other suppliers provide fast turnaround and cost-effective prototyping of simple parts, as well as complex assemblies, compatible with wire EDM and finishing.
Gold plating, passivation, and protective coatings are options for copper and related alloys that can, in turn, enhance corrosion resistance in corrosive environments. Bronze alloys and brass are good corrosion-resistant materials and offer a range of aesthetic options. Also, copper plating or coatings could either preserve the reddish-orange look of copper or enhance durability, depending on how the part will be used.
CNC Copper Parts are used across a wide range of industries for their excellent electrical, thermal, and heat-transfer properties. It is preferred in many applications for its good machinability, high electrical and thermal conductivity, and outstanding thermal properties. Unlike traditional copper alloys, which remain difficult to machine, we find that copper is the most sought-after material for parts.
Our copper CNC machining machine guarantees reliable support for several reasons: the CNC machine has the newest CNC equipment, and Engineers who are skilled and experienced are used. We apply rigorous quality checks and have a deep understanding of copper and how its properties influence machining processes. This knowledge enables us to identify process improvements and comply with your specified requests. As an expert in copper machining services, we are a great choice.