Tube Laser Cutting Systems Lebanon

Tube Laser Cutting Systems 80w

The most productive solution for tubes of any section. Tubes up to Ø 6" (152.4 mm)2D cutCO2 or fiber laser

Take a glimpse into our StarCut Tube lab and production area and find out more about these fully-automated, multi-axis CNC machines for tubes and flat materials, including medical devices such as catheter shafts, stents, hypotubes, PTCA devices, TAVR, etc.

Tube Lasers Cutting Systems 3d Printing —

Tubes and profiles are used everywhere – from mechanical engineering and system construction all the way to the furniture industry. Lasers have opened up new design possibilities, so more and more designers are taking advantage of the benefits of laser-cut tubes and profiles thereby considerably increasing demand. Discover all-round solutions for the world of laser tube cutting and find out more about the TruLaser Tube machines.

Traditional tube features can be time-consuming. FabLight makes it easy for you to get exactly you want and how you designed it - in minutes

Tube Lasers Cutting Systems Ontario Canada

The high cutting speed of CO2 lasers is what makes them stand out. Their main application area is the medium-to-high range of material thicknesses. The laser beam cuts with high precision and is free from burrs. This allows the parts to be processed further without needing to be reworked.

A second consideration is the fiber laser’s compact modules. They allow for redundancy. The resonator can still shut down when one module is having a problem. The fiber laser is redundant so that other modules can temporarily produce more power to support the down module while repairs are made. These can also be done in field. The fiber resonator may also continue to produce lower power until it can be repaired. The entire CO2 resonator can go down if it has an issue.

Tube Lasers Cutting Systems Ontario Canada
Machining

Machining

Fabricators might first think of high-speed laser cutting when they think about fiber laser cutting technology. While this might be true in some cases, it is not the case when it comes tube cutting. It is more about the time required to process a tube so it meets specifications than the actual cutting speed.

Some things are extremely obvious. The size of the laser "generator," on a fiber laser, is much smaller than that of a traditional CO2 resonanceator. The fiber laser is made up of banks of diodes. Each module can hold 600 to 1,500W. Multiple modules can be spliced together in order to create the final powered-resonator. This module is typically about the same size and shape as a small filing box. Fiber-optic cable channels the light generated and amplifies it. The light is still the same quality and power when it exits the fibre-optic conduit. It is then adjusted for the type and focus of the material to be cut.

Tube Laser Cutting Systems Model 40268

Monaco high-power Femtosecond Lasers offer exceptional edge quality in micromachining, and improves in scientific applications such three-photon Microscopy.

Laser cutting technology with shape can allow for complete customization. The raw material can be used to create finished or semifinished parts.

What is a tubing cutter
What is a tubing cutter

The CO2 solution to large-diameter tubes and profiles Tubes up O14" / 24", (355 mm, 610 mm).3D cutting modeCO2 laser

We can complete your project in one facility with no downtime and extended lead times. We offer full-service center support that can:

Tube Laser Cutting Systems 1kw

Every need has its own cutting technology. The materials to be processed, as well as the desired level of productivity and cutting quality, allow users to choose between CO2 and fiber laser cutting systems.

Leading manufacturer of laser-cutting solutions, including CNC controls and automation systems.

Frequently Asked Questions

CO2 laser cutters are the most commonly used types of laser cutters because they are low power, relatively inexpensive, efficient, and can cut through and raster a wide range of materials.

What is the operation of a CO2 Laser? Modern CO2 machines typically generate the laser beam in a sealed glass tube filled with gas, typically carbon dioxide. A high voltage flows through the tube, interacting with the gas particles and increasing their energy, resulting in the production of light.

from 3 months to 3 years
Glass CO2 laser tubes all degrade over time, with lifespans ranging from 3 months to 3 years. With use, the CO2 inside the tube degrades into carbon monoxide and oxygen. Overdriving the tube only accelerates this process and shortens its working life.