The TruLaser Tube 5000 fiber can achieve record speeds. It fully exploits the strengths of solid state lasers. This allows for faster processing times and the possibility of assembling many parts.
How do you compensate for that? Traditionally, you are going to come down and touch the face with a sensor that marks the contact point. The tube is then rotated, and the opposite side of the tube is touched. That gives the control an idea of just how bowed the tube is. This method is accurate and can ensure those through-holes work out for the application. But keep in mind that each time a rotation of the tube occurs, the ability to deliver very high tolerances is reduced.
Monaco high-power femtosecond lasers deliver superior edge quality in micromachining and improvements in scientific applications like three-photon microscopy.
The tube cutting laser machine StarCut Tube offers the ultimate precision, with contour cutting accuracies better than +/- 5µm.
The ability to choose between 2D and 3D laser cutting technology opensup the possibility of individually customized and precise cutting of parts in avery wide variety: tubes with round, square, and rectangular shapes as well asprofiles with diverse open cross-sections (for example H, L, T, and Ucross-sections). In addition tostraight cutting edges, the 3D technology also enables bevel cuts up to 45degrees. This versatility eliminates the need for costlymilling, drilling, punching, or sawing processes.
Get a peek into our StarCut Tube manufacturing area and lab to learn about the multi-axis CNC machines that can be used for flat and tube production, as well as medical devices such stent shafts, hypotubes and PTCA devices.
Tube extensions are available for loading tube stock to the maximum length of 80", or 6'8". The maximum part size is 52".
Micrometric Ltd uses its versatile Coherent StarCut tubes laser cutting machine in order to produce speedy and precise medical and aerospace products.
StarCut Tube laser tube cutter offers unsurpassed precision. It can cut contours up to +/-5um.
Learn how the Coherent StarCut Tube was used to cut stents and how StarFiber, a laser-powered cutting machine, helped NPX Medical.
The laser generating technology that is used to produce sheet laser cutting machines can be upgraded to deliver as much as 12 kW. A laser tube cutter typically produces 5 kW of power, because more power would simultaneously cut through both ends of the tube.
Some things are obvious. A fiber laser has a smaller laser "generator" than a CO2-resonator. Actually, the fiber laser is made by banks of diodes which are combined in a small module. These modules can have a power range from 600 to 1,500 W. To create the final powered resonance, multiple modules are spliced together. This is usually the same size as a small filing cupboard. The fiber-optic cables channel the light and amplify it. Fiber-optic cables transmit the same light as when they were generated, with no loss of power and quality. The fiber-optic cable is then adjusted and focused to cut the appropriate material.
Reduce time and the number of parts required. Tube frames and metal structures can be assembled faster and with more precision. In one programming step, you can complete your part on one machine and one system.
The best solution for tubes with any section. Tubes up-to O 6 (152.4 mm)2D CutCO2 or fiber laser
Laser tube cutting is a method and technique for cutting tubes, structural shapes, or channels. These items will be cut to the required length during the process. It can also make holes or designs in tubing. It is a precise cutting method.
A fiber laser cutting machine generates a laser beam using active optical fibers and transmits it to the machine's cutting head via a transport fiber. This extremely hot laser is condensed into a narrow beam and is used to cut through various metal thicknesses.
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.