StarCut Tube L 600 is available with a fiber laser, a USP laser or both lasers. StarCut Tube SL is a compact model with the smallest footprint in the market.
StarCut Tube L 600 has a choice of three laser options: a fiber laser or a USP. StarCut Tube SL has the smallest footprint of any model on the market.
Shape laser technology allows for a complete customization and cut-to-length capabilities in just one step. Finished or semi-finished parts are produced from raw material.
Imagine you are required to place a throughhole in a tube. The tube must be centered at the correct dimension. The tube should not be bent. That's tube fabrication.
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This is the most effective solution to any tube section. Tubes upto O6" (152.4 mm).2D cutterCO2 or fibre laser
NIT uses the Coherent laser to create vertical components of nitinol with extraordinary precision and edge strength.
Their high cutting efficiency is what distinguishes CO2 lasers. Their main area of use is in the medium to large range of materialthicknesses. Laser beam cutting edges excel in throughburr-free and low scoring. This means that cut parts can be further processed without the need to rework.
Traditional tube features can prove time-consuming. FabLight makes fabLight easy. You can get exactly what and how much you want - in minutes!
Find out how the Coherent StarCut Tube (and StarFiber laser powered cutting machines) helped NPX Medical get a competitive edge in stent manufacturing.
Lasertubes are 2-D and 3-D laser-cutting systems for tubes, bars, and profile. Available in diameters of 12 mm to610 mm (.5"-24"), and up 18 m (60').
Monaco high-power, femtosecond-lasers offer superior edge quality for micromachining and improved scientific applications such as three-photon microscopy.
Tube cutting also requires a weld seam. This material is rolled-formed and then welded together. These two points should be considered:
There are two options for laser cutting technology: 2D or 3-D. You can customize and cut parts in many different shapes. For example, you can make tubes that have round, square and rectangular shapes. Also, you can cut profiles with various open cross-sections like H, L, T and Ucross-sections. 3D technology can also be used to make bevel cuts as high as 45degrees. This versatility makes it possible to eliminate the need for expensive milling, drilling and punching as well as sawing.
The laser beam is the most important component of the laser cutter; it determines wavelength and power, and thus the material that it can cut or engrave. Solid-state lasers, fiber lasers, and CO2 lasers are the three main types of lasers used in laser cutting.
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.
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.