StarCut Tubes SL is a laser cutting system that provides high accuracy, superior reliability, as well as high performance for cutting complicated medical devices such stents.
The CO2 solution to large-diameter tubes and profiles Tubes up O14" / 24", (355 mm, 610 mm).3D cutting modeCO2 laser
This is the tube laser cutting solution that offers the most versatility. Tubes up to O9.45" (240mm)3D Cutting modeCO2 or Fiber Laser
StarFeed can be used as an automated loader/unloader to the StarCut Tube laser cutting machine. It comes in two sizes, S and L. The StarFeed allows you to fully automate dry and wet cutting for tubes of any diameter from 1-20mm. StarFeed L can store 48 tubes and allows processing of oval tubing. Its sensor-controlled gripping unit avoids damage. The result is a substantial increase in productivity.
Gulf States Saw & Machinery Co., Inc.’s team of experts will work with your to create a program specifically tailored to your needs. We will assess how your part is produced currently, as well as its intended application and end use. Together, we will identify and meet your specific needs.
Find the exact solution for your laser fabrication requirements while maintaining process quality and efficiency to both metal and other materials.
The option to choose between 2D/3D laser cutting technology allows for the possibility of customizing and precise cutting parts in a wide range of shapes. These include tubes with square, rectangular, and round shapes, as well as profiles with varied open cross-sections (e.g. H, L. T, Ucross-sections). 3D technology is capable of cutting straight edges up to 45degrees. This flexibility makes it unnecessary to perform costly milling and drilling, punching, punching, or other sawing operations.
Learn how the Coherent StarCut Tube laser-powered cutting machines and StarFiber laser cutters helped NPX Medical to gain a competitive advantage in stent manufacturing.
Gulf States Saw & Machinery Co., Inc. is able to manufacture tube lasers for customers, allowing them to eliminate manual processes and maximize the cutting process.
You will be able to see the fiber laser in action for a better understanding of some things. A fiber laser has a higher power density than a CO2 beam because its beam diameter is usually one-third of that of a CO2 beam. This allows the fiber to cut faster and pierce more quickly. The fiber can also cut intricate shapes and leave sharp edges thanks to the smaller beam size. A fiber laser can cut a logo for a company out of a tube with a spacing of 0.035 inches between letters.
The most productive solution to tubes of any section. Tubes upto O 6" (152.4mm).2D cutCO2 (or fiber laser).
Tubes are very simple and do not require a powerful laser. Tube laser cutting machines require only 5 kW power, whereas flat sheet laser cutters can be powered by laser generators up to 12 kW. When cutting a tube, it is important to always think about the other side. A stronger laser would simply blow through the tube on the opposite side during cutting. You don't need to worry about the other side if you're processing a beam of a channel or a channel using the tube laser.
A tube's very nature prevents the use of high-powered lasers. Flat sheet laser cutting machines can now be equipped with laser generators that are as powerful as 12kW. Tube laser cutting machines, however, only require 5kW. You must always consider the side you are cutting when you work with a tube. A stronger laser will simply cut through the tube from the opposite end. (Officially, you don't have any need to worry if you are cutting a beam or channel with the tube laser.
Our system solutions provide the best selection of options for flexible production of small and large quantities.
Maximum material cutting thicknesses by 1000W fiber laser cutting machine: Carbon steel has a maximum thickness of 10mm; stainless steel has a maximum thickness of 5mm; aluminum plate has a maximum thickness of 3mm; and copper plate has a maximum thickness of 3mm.
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.
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. It can also be used on a variety of materials in a variety of shapes and sizes.