Meet Tomorrow's Laser Technology Challenges With WITT!
Lasers are being incorporated into metal machining processes more and more, such as welding and cutting.
The economic use of lasers is determined by two factors: First, optimum productivity and use of the system and secondly, consistently high quality performance. Both are distinctly affected by the composition of the gas mixtures used. WITT gas mixers guarantee optimum laser performance.
WITT. For a clean cut!
Developing laser gas mixers does not just mean that the required quantities of the gas blend are provided reliably when needed and in the required composition. In addition, the gas cleanness must not be compromised. WITT gas mixers are optimized to prevent contamination of the gases through their flow path from the storage cylinder into the resonator cavity of the laser system.
One of the lasers types most commonly used for material processing is the CO2 laser. These lasers operate using gas mixtures consisting of CO2, N2 and He as service (lasing) gas. The laser beam is generated by excitation and subsequent discharge of the CO2 molecules. The N2 portion in the gas mixture supports the energy transfer to the CO2 molecules, while He added to the gas mixture enhances heat dissipation.
Cut down your costs with WITT!
WITT offers custom made solutions to your laser gas needs. Ready-made gas blends are expensive.
For many applications, the investment in a gas mixer is an economical alternative. Procuring the individual gases and using a gas mixer system results in a cut-down of operating costs. Furthermore, gas mixers offer the advantage of modifying the gas mixture quickly and easily. Thus, it is possible to optimize the performance of the laser system and adjust it to the individual processing requirements.
For many years, WITT has been developing customer specific solutions in close cooperation with leading CO2 laser manufacturers. You are invited to take advantage of our experience in development, design, and production of gas mixers for laser systems.