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medical tube stent laser cutting machine high accuracy +-0.015mm
Laser Cutting Machine for Medical Stent YC-SLC300- laser stent cutting ,Laser Cutting Machine for Medical Stent YC-SLC300 Short Description: Laser micromachining of bare metal stent and drug coated stent such as coronary artery stent and vein filter Avoiding Material Damage with Cold Laser Cutting - mddionlineStent manufacturing is a good example of a demanding application. The delicate operation requires cutting sheets or tubes of metal to make mesh tubes with an intricate structure. A water-jet-guided laser, or laser microjet, technology provides an efficient way to cut stents.
medical tube stent laser cutting machine high accuracy +-0.015mm
Laser cutting is a thermal separation process. When the laser beam hits the surface of the material, the material is heated so strongly that it melts or is completely vaporised. Once the laser beam has penetrated the material and perforated it at one point, the actual cutting process begins. The laser cutter moves along the specified geometry ...
7. Salvagnini. Salvagnini, founded in 1963, is a professional company specialized in R & D, manufacturing and sales of flexible equipment and systems, such as sheet metal flexible production line, optical fiber laser cutting machine, robot, panel bender and automated logistics warehouse.
fabrication by introducing the first industrialized laser stent cutting system in 1993. The standard by which all others are measured, and by which they measure themselves. Major stent manufactures are using LPL machines every day, 24-7, producing 3/4 of the worlds stents. as well as many other devices in medical and other industries.
What is claimed is: 1. A method of manufacturing a stent by cutting a desired pattern in a tube comprising the steps of: i. providing a tube having a longitudinal axis therethrough; ii. providing a stationary source of laser radiation; iii. generating a beam of laser radiation using the source of laser radiation; iv. cutting a desired pattern ...
medical tube stent laser cutting machine high accuracy +-0.015mm
Short laser pulses concentrate the heat in the cutting area (right) and reduce the number of postprocessing steps. Laser cutting for stent and tube applications is nothing new. Named for how the laser beam is developed in the resonator, CO 2 lasers have been used in manufacturing for decades and fiber lasers have been in use for a number of years.
Laser Cutting Stents. Laser Cut Stent. Do you want to work with us? Start the Project Planner. Previous.
The StarCut Tube Femto integrates a compact laser source with field-proven high reliability and long-term stability, essential properties for industrial manufacturing, but hard to find in ultra-fast laser sources. Manufacturing of medical devices from tube stock typically relies on laser fusion cutting with pulse widths in the µs-scale.
A stent may be manufactured by providing a tube having a longitudinal axis therethrough, providing a stationary source of laser radiation, generating a beam of laser radiation using the source of laser radiation, and cutting a desired pattern into the tube by scanning the beam over a desired region of the tube.
Stent manufacturing is a good example of a demanding application. The delicate operation requires cutting sheets or tubes of metal to make mesh tubes with an intricate structure. A water-jet-guided laser, or laser microjet, technology provides an efficient way to cut stents.
Laserage is your Premier Full-Service laser processing company for precision tube cutting, laser welding, drilling, scribing and other custom services.
Laser Cutting Stents. Laser Cut Stent. Do you want to work with us? Start the Project Planner. Previous.
medical tube stent laser cutting machine high accuracy +-0.015mm
Laserage is your Premier Full-Service laser processing company for precision tube cutting, laser welding, drilling, scribing and other custom services.
High-Precision Tube and Stent Cutting Laser System The ILT Versa is a Class 1 fiber laser processing system designed to cut high quality stents and small tubes for the medical device and aerospace industries. Fully automated and easy to use, with a preloaded library of validated programs that accelerate tool characterization and qualification.
The system, called the SIGMA® Laser Stent & Tube Cutter offers increased acceleration and deceleration ramping that can significantly reduce cycle times for stents and hypo tubes. This is especially true for those with numerous fine features and short move cut paths. This feature is further enhanced by new digital controllers that have higher ...
Laser turning and stent cutting. DMC has dedicated tools for laser turning and cylindrical object processing applications. For turning it allows defining the process in several stages to get the smooth part. For stent cutting, users can wrap any 2D patterns on cylindrical objects and either use scanner or stages for processing.
Cutting of stent with Blueacre Technology micro tube laser cutting machine. High accuracy and repeatability in 4 axis (X,Y,Z & Theta) allowing full on and of...
Stent cutting is a very delicate process due to its intricate design in the miniature form. Lasers with shorter pulse duration and high beam quality and stages with high resolution and accuracy are the best of options. High quality stent products should comprise of the following features: Narrow and consistent kerf width
Stent Laser Cutting Machine. The stent cutter SCS stands for outstanding precision and highest efficiency in stent production. Stents are stainless steel grids that are used for the extension of arteries in medical surgery. The stent cutter SCS 100 DH from Trotec is the only machine in its class to operate as a Dual-Head System.
7. Salvagnini. Salvagnini, founded in 1963, is a professional company specialized in R & D, manufacturing and sales of flexible equipment and systems, such as sheet metal flexible production line, optical fiber laser cutting machine, robot, panel bender and automated logistics warehouse.
Laser cutting is one of the key fabrication technologies applied to coronary stent manufacture. This paper reviews the recent progress in laser-based stent manufacturing, including different type...
Cardiac stents first appeared in the 1980s, also known as coronary stents. The diameter of the cardiac stent is only 2-4 mm and the weight is less than one ten thouh of a gram. It is a more direct and effective tool to deal with acute myocardial infarction. It can reach the blocked coronary artery along the blood vessel, and quickly open ...