Aurubis BARS & PROFILES provides copper solutions for generators.  They can also be found in electrical substations, trunking systems, switchgears and conductor systems. We provide copper products for medical systems and different areas of research that use electrical energy to create a magnetic field, AC and DC motors as well as induction furnaces where the magnetic field is used for metal smelting.

Process technology

We started producing bars & profiles in 2006 using one of the most advanced technologies, the continuous extrusion process. Three state-of-the-art production lines produce excellent and high-quality profiles, strategically placed in Belgium, in the center of Europe.

Wire rod is transformed in the rotary process from a solid to a plastic state by friction and shear deformation. In the plastic state the copper flows through the die to form a homogenous product due to the constant and continuous process parameters.

Flat Bars
  • Our flat bars up to 10 m can be delivered in various finished conditions according to our customers’ requirements.
  • Cu-ETP, CuAg0.04, CuAg0.1
Round Bars
Dimensional range
  • 12 mm to 50 mm in diameter, lengths up to 10 m
  • We offer several packaging solutions for round bars in order to fulfill all of our customers' requirements precisely.
  • Cu-ETP

The copper segments are used for manufacturing commutators:

  • AC motors
  • DC motors
  • Generators
  • Our copper segments can be delivered in various finished conditions.

  • Cu-ETP; and for more thermal stability: CuAg0.04, CuAg0.1
Cross sections
  • from 10 mm² to 3000 mm² (90 g/m to 27 kg/m)
  • Our profiles are available in various finished conditions.
  • Straight lengths up to 10 m
  • Coiled on spools up to 2.000 kg
  • Loose coils up to 1.000 kg
  • Cu-ETP, CuAg
Hollow Profiles
Rectangular hollow profiles with round hole
  • Outer shape 10 mm to 25 mm
  • Hole between 6 mm and 15 mm in diameter
  • Wall thickness > 2 mm
Rectangular hollow sections with rectangular hole
  • Outer shape 10 mm to 25 mm
  • Wall thickness > 2 mm
Asymmetric hollow sections
  • Outer shape 10 mm to 25 mm
  • Wall thickness > 2 mm
  • Our hollow sections are available in various finished conditions: as bars up to 9 m long, as loose coils or on spools up to 1,000 kg.
  • Cu-ETP; and for more thermal stability: CuAg0.04, CuAg0.1

The bars & profiles have been developed for customers in the electrotechnical industry. The products are used in various applications such as switchgear, trunking systems, circuit breakers, motors, generators, conductor systems and inductions systems, among others.

Circuit breakers

Aurubis extrusion experts assist design engineers in efficiently developing complex copper profiles for circuit breaker contacts.

Protecting electric circuits against overload and short circuit currents

Circuit breakers are an essential part of the protection system of every electrical network. They automatically disconnect the circuit in the event of an overload or a short circuit, preventing damage to the network and its equipment. They exist in many different sizes, ranging from miniature circuit breakers that protect a single household appliance to large devices that protect high-voltage circuits in industrial and utility networks.

Circuit breakers must be able to carry a high load without excessive heating. They also must withstand the thermal and mechanical effects caused by the maximum short circuit current that can flow through the circuit. Opening the circuit generates an internal arc between the receding contacts, which the breaker must contain, cool, and extinguish in a controlled manner.

Many different types of circuit breakers exist, differentiated mainly by the following:

  • The medium used to extinguish the arc. This can be air, vacuum, oil or an insulating gas such as SF6.
  • The manner in which the mechanism that releases the latch is triggered. In low voltage breakers, this can be thermal (a bimetallic strip), magnetic (a solenoid) or a combination of both. Most types of medium and high-voltage breakers contain current sensing protective relays operated through a current transformer. Some medium-voltage circuit breakers are operated by an electronic trip unit controlled by a microprocessor. The energy is provided by a solenoid, a motor or compressed air in most cases.
  • They can operate for one phase or for three phases simultaneously.
Fast deployment to new product market is key

Circuit breakers are subject to little standardization. This, combined with the fact that breakers have a relatively short lifetime, results in a dynamic market with a high level of diversification. Manufacturers regularly develop new models that score high on compactness, cost and expected lifetime. As a result, efficient and fast product development provides an important competitive advantage in this market.

Aurubis experts - part of your engineering team

The experts at Aurubis can assist circuit breaker manufacturers in the development of optimal copper profiles for breaker contacts. Our team possesses unique experience in the field as well as specially equipped laboratories. Thanks to their responsive, solution-oriented attitude, they quickly become an effective part of your engineering team. You can count on them throughout the complete course of product development, from the initial idea to the final certification of your new product.

Deep expertise in extrusion tooling
One of the trump cards of our development team is an in-depth knowledge of extrusion tooling. Not only do our engineers possess an extensive set of design tools, they are also very skilled in assessing which tools are best to use for a particular process, and how. In this way, the dimensional constraints become clear at an early stage in product development. In close cooperation with your team, our experts will propose solutions to incorporate those constraints and design concepts that have the best features at minimum cost.

Flexibility in developing a small prototype series
During the development of new circuit breakers, prototypes are often used to test the assembly and verify electrical and mechanical characteristics. Aurubis has the right machinery and planning flexibility to develop small prototype series of complex copper profiles in the short term.

Ensuring dimensional stability
Aurubis' continuous extrusion lines guarantee copper profiles of a highly homogeneous and consistent quality. In particular, we offer an excellent dimensional stability for the copper profiles, both throughout the complete development phase as well as during the subsequent commercial manufacturing of the product.


Aurubis offers a wide range of shapes and sizes for use in switchgear, with supreme conductivity.

A vital part of the electricity system

Switchgear directly affects the safety, reliability, and flexibility of an electricity system. It is found in the electric network substations of utilities and industrial plants, as well as in the power supply systems of buildings, public transport systems and even ships.

Switchgear has two basic functions:

  • It houses protection devices against overload and short circuits, ensuring personal safety and the integrity of the equipment
  • It contains devices to distribute and control electric current

Additional functions of switchgear can be:

  • To isolate electric circuits from the power supply to enable a safe execution of maintenance activities or to clear faults
  • To connect and disconnect electric induction motors
  • To execute qualitative or quantitative measurements on the power supply

Switchgear exists in all voltage classes, from 220 V up to 1,100 kV. The switchgear system is installed inside a cabinet, which can be mounted either inside or outside a building. The exception to this is a situation involving very high voltages; in that event, they are placed in an open space.

A switchgear cabinet contains the following three main parts:

  • Protection, control and measurement apparatus/devices
  • Copper busbars and trunking systems connecting the ingoing and outgoing cables with the devices
  • The enclosure and mechanical supporting systems

The average switchgear cabinet contains 80 kilograms of copper; however, the copper content varies widely depending on the power and voltage rate.

Aurubis copper is found mainly in the busbars and trunking systems, which are discussed here, but also in fuses and circuit breakers. Small quantities of copper are also used in other devices or as part of the switchgear cabinet.

Ever higher power in ever smaller cabinets

For switchgear mounted inside buildings, space is often limited. Solutions have been developed that enable the installation of switchgear of ever higher power in increasingly smaller cabinets. Examples include the use of finned busbar profiles that ensure maximum ventilation. Such busbars keep the temperature under limit values, even when a high amount of energy is transmitted inside a small cabinet.

Restricting eddy current losses is another reason to make use of complex busbar profiles, mainly for high-rated switchgear.

Aurubis offers the perfect solution to the trend of using complex busbar profiles. Our catalogue of flat bars, round bars, segments and profiles includes more than 300 items in a wide range of shapes and sizes. On top of that, we have already designed and manufactured more than 2,000 different profile configurations at the request of renowned OEMs.

Top conductivity

A disadvantage of complex busbar profiles is that they increase resistivity and, as a consequence, increase energy losses. By employing busbars made of Aurubis' exceptionally pure copper, this loss of conductivity can be compensated for, at least partially.

Indeed, our bars and profiles show thermal and electrical conductivity characteristics that are significantly better than the ETP copper standards. They are manufactured from our own high-quality cathodes with a copper content of 99.995 %.

Moreover, our copper bars are less rough thanks to the careful design and maintenance of our tools. As a result, less energy is lost in electric joints with Aurubis copper bars.

These reduced energy losses improve the total cost of ownership and the environmental performance of the installation.

Designed for easy manipulation and assembly

Aurubis bars and profiles are manufactured for uncomplicated ease of use. The bars are easy and safe to bend and can be coated easily.

Aurubis also offers grooved profiles designed for switchgear joints that are free of screws and holes. Some of these special joints allow the switchboards to be assembled on site, even by unskilled personnel.

Highly constant product quality

Aurubis products come with a guarantee of the highest quality. Our advanced manufacturing technology combined with our rigorous quality control results in a consistent, reliable and homogeneous product quality.

Trunking systems

The outstanding electrical conductivity and high durability of Aurubis copper make it the ideal base material for all categories of electrical trunking systems.

Distributing heavy currents inside equipment, buildings or switching yards

Electrical trunking systems are used to carry a compound current where various electrical cables come together. Such systems normally consist of a rigid piece of copper, typically flat strips or hollow bars. Although copper is the preferred material for trunking systems, aluminium is occasionally used because of its cheaper initial purchase price, despite significant disadvantages.

The cross-section of a copper trunking system is determined by the maximum current that it must be able to carry safely. It can be as little as 10 mm 2 or as large as 2,000 mm 2.

Trunking systems are used in various applications. A busbar trunking system is used inside electrical apparatus, inside switchgear or at a power company switching yard. Busways or busducts are used to bring the main power feed into a building or to make connections to large switchgear. A plug-in bus is used to distribute power over the entire length or height of an industrial building.

Busduct phase conductors can run inside the same enclosure (non-isolated bus), they can be separated from each other by a grounded barrier (segregated bus) or they can run inside a separate grounded metal enclosure (isolated-phase bus). Connections to trunking systems are generally bolted, welded or clamped.

Conductivity and durability are essential characteristics

Trunking systems are intended to carry high currents; therefore, their electrical conductivity is a key parameter. Constructing a busbar or busway out of highly conductive copper brings about advantages at several levels:


The ability to transport high power in a limited space

  • Busbars must sometimes be installed within a very limited space such as a switchboard or other electrical equipment
  • The costs of busway enclosures and support structures rise with the size of the conductor

Low energy losses, resulting in

  • Limited heat production, a considerable advantage when installing busbars inside compact switchboard cabinets or other electrical equipment
  • Reduced energy costs and a lower life cycle cost of the installation
  • The environmental benefit of reduced CO 2 emissions
  • Electrical installations in buildings and switching stations are built for a long useful life, usually several decades. Durability is consequently another essential quality for a trunking system
  • Joints and connections must be able to withstand cyclical loading/unloading
  • Busbar and busway materials must have sufficient strength to withstand the mechanical forces of short circuit currents
  • The busbar material must resist accelerated corrosion, even in chemically aggressive environments
Premium quality, highly conductive copper profiles

Pure copper has a high electrical conductivity, second only to silver. Aurubis copper profiles maintain this essential quality thanks to their extraordinary degree of purity. They are manufactured from our own copper cathodes with a purity of 99.998 %. During our state-of-the-art manufacturing processes, every effort is made to keep the copper material free of any contamination. Thanks to this high level of purity, Aurubis copper profiles have electrical conductivity that is significantly higher than the ETP copper conductivity standards. This brings with it many advantages related to compactness and low energy losses.

Copper, specifically extremely pure Aurubis copper profiles, also boasts the following advantages compared to lower grade copper or aluminum:

Connections can withstand the temperature cycles caused by load variations without significant degradation.

A tensile strength of 260 to 300 N/mm 2 (compared to 50 to 100 N/mm 2 for aluminum) provides the necessary mechanical strength to withstand short circuit currents.

Corrosion remains limited to the outer surface even in chemically aggressive environments and does not affect the electrical properties or the mechanical strength of Aurubis profiles.

To learn more about the substantial advantages of copper compared to aluminum as a material for busways, read the Leonardo Energy publication Materials for Electric Busways.

A customer-oriented partner

Buying from Aurubis offers you the advantages of our well developed and far-reaching customer services:

  • Just-in-time delivery: Short and reliable lead times with a stable product quality, thanks to our Supply Chain Concept.
  • Financial guarantees: Aurubis is a strong and financially healthy long-term copper supplier. We offer customized hedging solutions with full pricing transparency.
  • Focused business relations: We have a clear and unambiguous business model, focusing on semi-finished copper products while maintaining professional and transparent long-term relationships with resellers, subcontractors and machining companies.
  • Product development and quality measurements: In addition to our extensive knowledge of profile design, we can offer a large number of quality measurements spanning all aspects of your needs, from metallurgical product analysis to electrical product performance.
Thomas Peter Samson
Thomas Peter Samson

Head of Sales Bars&Profiles + Copper on Account

Phone +49 40 7883-2292
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