Copper is an indispensable material in many industrial sectors. Thanks to its exceptional conductivity and favourable mechanical properties, it is used in applications where precision, reliability and durability are essential. To ensure these characteristics are fully utilised, CNC machining of copper must be carried out with great care, taking into account the specific properties of the material, the type of alloy and the required technical specifications. Find out more about the solutions that ensure the highest conductivity and durability of copper components.
Machining of copper, both pure copper and its alloys, can affect the material’s electrical and thermal conductivity. Incorrect machining parameters can lead to structural changes that impair these key properties. This applies in particular to components used in the electrical engineering and automotive industries, where copper conductivity has a direct impact on the functioning of devices and systems. An example is the precision machining of electrical conductors, which requires not only the geometry but also the conductive properties to be maintained.
In engineering practice, copper machining parameters such as cutting speed, feed rate and depth of cut are selected on a case-by-case basis, depending on the type of material and the final application. CNC machining of copper therefore requires precise planning of the machining process to avoid compromising the mechanical and electrical properties of the workpiece.
Copper is a soft and ductile metal, but during machining it undergoes surface hardening (known as work hardening). This occurs as a result of plastic deformation of the material in the cutting zone. Work hardening of the surface layer can result in reduced conductivity and problems during subsequent operations, such as soldering or welding. Minimising work hardening is therefore essential and requires appropriate measures. To limit this phenomenon, technologists use:
This approach helps to preserve the conductivity of copper, which is crucial when machining components such as cable housings, contacts or high-current components.
Although copper has excellent thermal conductivity, excess heat generated during machining can lead to localised overheating. This, in turn, affects the structure, conductivity and mechanical properties of copper, such as strength and susceptibility to deformation. Therefore, the following are used:
Correctly selected copper machining parameters are not only a matter of quality but also of operational safety, especially in sectors such as the medical industry. For projects requiring high precision and repeatability, it is worth relying on experienced technology partners. Precision CNC turning – see what we offer as part of RADMOT’s comprehensive range, where precision and quality are standard at every stage of production.
The surface finish of copper affects its electrical conductivity, corrosion resistance and mechanical durability. Depending on the application—whether in the defence industry or in consumer products—various finishing techniques are used, such as:
An appropriate copper surface finish is of particular importance in components intended for electrical engineering applications and as elements requiring low contact resistance.
Pure copper is the material with the highest electrical conductivity, but it is also one of the most difficult to machine – it is soft, ductile and tends to stick to tools. It requires a very precisely designed process, often involving specialist tools and restricted cutting parameters. In contrast, CNC copper alloys, such as brass or bronze, offer better machinability, albeit at the cost of lower conductivity.
The choice of the right material depends on the application requirements:
RADMOT is a technology partner for companies seeking reliable solutions in the machining of copper and non-ferrous metals. We offer professional CNC milling – check out our services and precision turning. With over 80 CNC machines and our own measurement laboratory, we are able to carry out both series production and prototyping orders whilst maintaining the highest levels of accuracy.
We serve companies in sectors such as the automotive, electrical engineering, medical and consumer products industries. The RADMOT team will help you select the optimal technology and take full responsibility for the production of parts – from prototyping to assembly and surface finishing.
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