The LASERDYNE® 811 is the most advanced laser processing system on the market and provides optimal performance with the speed and precision required for today’s challenging laser welding, drilling, cutting, and DED additive manufacturing applications. The system supports small to medium, 2D, and 3D parts with a unique moving beam motion system. Constructed for high-speed operation without compromising mechanical accuracy, it is the first and only standard-built multi-axis laser system to guarantee volumetric accuracy and provide seamless integration with a wide variety of automation solutions.

The LASERDYNE® 811 accepts a wide variety of industrial lasers for processing common materials and the most demanding applications that use specialized metals, composites, and other advanced materials. The systems are used by industries that value precision, quality, and efficiency. The LASERDYNE® 811 is a turnkey system with the highest value and the most efficient use of floor space in its class and has been designed to repeatedly produce consistent quality parts for many years.

Medical, aerospace, turbine engine, automotive, and general manufacturing companies around the world look for Prima Power Laserdyne systems. In addition, the LASERDYNE Applications Group™ can develop and provide a process optimized for the application.

Prima Power Laserdyne has over 40 years of experience with producing the highest precision laser machining systems. The LASERDYNE® 811 is the newest laser system in the LASERDYNE product line. Each system comes with the LASERDYNE S94P laser process controller to provide programming flexibility and process capabilities.

The LASERDYNE® 811 supports Industry 4.0 (IIoT) and is ready for the next generation of manufacturing and factory. Prima Power Laserdyne uses MTConnect® for streaming of system and process parameters along with key machine activity to provide real-time information to the facility or operations management system. SPC Data Acquisition, which stores system and process parameter data, can be used to provide “proof-of-process” data and record the machine setting to support quality control requirements of the process.