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LASER WELDING

Laser welding does not require wire material or shielding gas. The process can be carried out with a manual tool or with fully automatic equipment.

welding

Precision laser welding equipment are special tools designed to perform fine and precise welding tasks. Precision laser welders are able to work with very tight tolerances, enabling the welding of small and sensitive parts. These devices introduce minimal heat into the material, which reduces the risk of deformation and damage to the material. Precision laser welding systems can often be integrated into automated production lines, increasing productivity and reducing the chance of human error. They have advanced control systems that allow precise monitoring and adjustment of the process. Precision laser welding equipment has revolutionized welding processes in many industries, providing high levels of accuracy, reliability and productivity.

The differences between precision automated laser welding and traditional laser welding are significant in several ways. Both technologies are used to connect materials, but they differ in their application, use, and process control.

copper and aluminium welding

Comparison of laser welding and conventional welding:

Precision automated laser welding:

Automation:

In this case, the welding process is carried out by automated systems that use computer-controlled tools and robots.

Accuracy and repeatability:

Automated systems provide extremely high accuracy and repeatability because programmed movements are performed without human error.

Speed:

Automation enables welding at higher speeds, which increases productivity and reduces lead time.

Application:

Used in high volume production such as automotive, electronic device manufacturing and other industrial applications where precision and efficiency are key.

Costs:

Higher initial investment costs are typical for acquiring and installing automated systems, but they pay for themselves in a short time due to long-term cost-effectiveness and productivity.

Conventional laser welding:

Manual control:

Conventional laser welding is often manual, where the operator controls the laser and materials, and this process is prone to human error.

Accuracy:

Accuracy is highly dependent on the skill and experience of the operator. Due to manual control, it is more difficult to maintain constant quality and precision.

Speed:

Manual control limits the speed of welding as the operator’s physical capabilities set a limit.

Application:

Generally used in small-volume production and repair work, where flexibility and operator experience play an important role.

Costs:

With lower initial investment costs, processes can be slower, increasing labor costs and reducing productivity.

precision laser weld

Precision laser welding in industry:

Precision laser welding plays an increasingly important role in various sectors of industry, thanks to the high precision, speed and reliability provided by the technology. Precision laser welding can benefit several industrial areas, including.

Automotive industry

In the automotive industry, laser welding is used to join different parts of the car body and chassis. Automated laser welding offers a fast and precise solution, reducing production time and increasing productivity. Welding aluminum and other lightweight materials used to improve fuel efficiency is particularly beneficial due to the precision of laser welding.

Electronics industry

Precision laser welding makes it possible to connect extremely small electronic components without damaging sensitive components. It ensures precise welding of battery cells and various sensors, which is crucial for reliability and longevity.

Medical technology

In the production of medical devices such as pacemakers, catheters and other implants, laser welding ensures strict tolerances and sterile manufacturing conditions. In the production of small surgical instruments, where precision is essential, laser welding is extremely useful because micron.

Air and space industry

The welding of structural elements of aircraft and space vehicles, which require high strength and low weight, is an ideal application area for laser welding. In the production of turbine and other gear components, laser welding ensures high accuracy and reliability.

Precision instrument production

Laser welding ensures the necessary precision when connecting and repairing the small parts of watch mechanisms. In the manufacture and repair of microscopes, binoculars and other optical instruments, laser welding enables precision joining.