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Products

  1. FolderCO2 Lasers High power CO2 lasers by Rofin for laser cutting, laser welding etc.
    1. FolderSLAB-Lasers A CO2 laser without gas recirculation
    2. FolderSealed-Off CO2 Lasers No Gas Consumption, Virtually Maintenance-Free
  2. FolderSolid-State Lasers ROFINs solid-state lasers are always the best choice with its flexible beam guiding through optical fibers.
    1. FolderCW and Q-switched lasers From Continuous-Wave Operation to Pulse Peak Capacity.
    2. FolderPulsed Rod Lasers For Laser Fine Welding and Fine Cutting Applications.
      1. PageLASAG NA LASAG NA - Needle drilling system for laser drilling
  3. FolderFiber Lasers Fiber lasers stand out due to their high efficiency and excellent beam quality.
    1. PageFL Series Perfect Beam Quality for Every Application.
    2. FolderStarFiber For fine cutting and fine welding with laser at high peak power, high repition rate and a broad frequency range
      1. PageStarFiber StarFiber laser source up to 600 W, pulsed or cw fiber laser for laser cutting and laser welding
      2. PageStarFiber FC OEM StarFiber laser source up to 600 W, pulsed or cw fiber laser for finest laser cutting or laser welding applications
    3. FolderPowerLine F The PowerLine F 20 lasers are completely air-cooled and have a power consumption of 300 W approx.
      1. PagePowerLine F 30 LP Perfect Beam Quality for Every Application.
    4. PageLASAG QFS 50 SC Perfect Beam Quality for Every Application.
  4. PageDiode Lasers Diode lasers are extremely compact laser beam sources which are the perfect tool for applications like heat conduction welding, brazing and hardening.
  5. FolderUltrashort Pulse Lasers Ultrashort Pulse Lasers (femtosecond and picosecond lasers) for laser cutting, laser drilling, laser marking or surface treatment
    1. PageStarFemto FX StarFemto FX ultrashort pusle laser for cold material processing with femtosecondlasers for e.g. laser cutting or laser structuring
    2. PageStarPico Dicsover more about laser material processing with picosecond lasers for e.g. laser cutting or laser structuring with ultrashort pulse lasers
    3. PageX-LASE Cold laser material processing with ultrashort pulse lasers (picosecond lasers) for e.g. laser cutting or structuring
  6. FolderLasers for Marking For organic materials like wood, paper or leather, certain polymers and glass sealed-off CO2 marking lasers will achieve the best results.
    1. FolderFiber Lasers The laser sources will mark almost all metals and plastics with high efficiency.
    2. FolderCO2 Lasers Particularly Suitable for Marking Organic Materials.
    3. FolderPreconfigured Laser Markers 
      1. FolderDesktop Laser Markers 
        1. PageEasyMark The compact Laser Marking System EasyMark Laser engraving or laser marking applications
        2. PageEasyJewel Discover the Laser Marking System for Laser engraving or laser marking in jewelry market with EasyJewel - the compact laser marker
  7. FolderSystems & Solutions Complete laser system solutions from ROFIN are solutions from a single source.
    1. FolderLaser Welding Systems Spot, circle, wave or quilting weld seams - ROFIN provides intelligent system solutions for numerous 2D and 3D welding applications.
      1. PagePWS 
      2. PageSWS 
      3. PageMPS 
      4. PageMPS 3D MPS 3D - For 3D Material Processing: 2D and 3D Laser Cutting, Laser Welding, Laser Structuring
      5. PageLASAG PWS Mini Perfect Beam Quality for Every Application.
    2. FolderManual Welding Lasers Manual laser welding systems from ROFIN combine the excellent quality of laser welded joints with easy handling and fast operational readiness.
    3. FolderLaser Cutting Systems Laser cutting systems from ROFIN comprise very specialized solutions for cutting medical implants to highly flexible all-purpose platform solutions like the Cube.
      1. FolderStarCut Tube Series The StarCut Tube is a laser cutting system for tubes (e.g. stents) or other implants in medical device technology
        1. PageStarCut Tube Series The StarCut Tube is a laser cutting system for tubes (e.g. stents) or other implants in medical device technology
        2. PageStarCut Tube Series The StarCut Tube is a laser cutting system for tubes (e.g. stents) or other implants in medical device technology
        3. PageStarCut Tube Series The StarCut Tube is a laser cutting system for tubes (e.g. stents) or other implants in medical device technology
      2. PageMPS 
      3. PageMPS 3D MPS 3D - For 3D Material Processing: 2D and 3D Laser Cutting, Laser Welding, Laser Structuring
    4. FolderLaser Marking Systems A manifold of options and integrable laser beam sources make application-specific solutions easy to implement.
      1. FolderDesktop Laser Markers Complete and compact laser marking system for laser engraving or marking applications
    5. FolderLaser Systems for Photovoltaics Laser Systems for Photovoltaics. For material processing of wafer, solar cells etc.
    6. FolderLaser Systems for
      Semiconductors
       Laser Systems for Semiconductors. For material processing of wafer, solar cells etc.

Applications

  1. FolderLaser Cutting Laser cutting is applied for different kinds of materials where complex contours demand precise, fast and force-free processing. Lasers create narrow kerfs and thus achieve high-precision cuts. This method does not show any distortion and in many cases post-processing is not necessary. Even 3D laser cutting is possible.
    1. PageCutting Processes There are three different cutting processes: Fusion cutting, Flame cutting, Sublimation cutting. The cut geometry, cycle time, system technology and, above all, the material composition are the crucial factors for the decision which laser source to chose.
    2. PageMild Steel Mild steel is the most frequently cut material in the industry. Lasers create narrow kerfs and thus achieve high-precision cuts. This method does not show any distortion and in many cases post-processing is not necessary. Even 3D laser cutting is possible.
    3. PageStainless Steel Lasers create narrow kerfs and thus achieve high-precision cuts. This method does not show any distortion and in many cases post-processing is not necessary. Even 3D laser cutting is possible.
    4. PageNonferrous Metal Porcessing of nonferrous metal, e.g. highly reflective material like Aluminium, Copper, silver etc. ist possible with lasers. Removal cutting processes with pulsed lasers or fusion cutting processes with cw lasers can be used.
    5. PagePrecious Metals For cutting precious metals very precise and fine cuts crucial. This is enabled by laser cutting e.g. with CO2 lasers or solid state lasers.
    6. PageTitanium Laser cutting (e.g. with femtosecond lasers) enables processing of titanium and titanium alloys - especcially in aerospace engineering, chemical industry and medical device technology - with minor distortion and affection of the material properties.
    7. PageFurther Materials Laser can cut aother material than metal, e.g. wood, glass, ceramics, diamond etc. Discover the wide variety of laser cutting
  2. FolderLaser Welding The laser beam welding is mainly used for joining components that need to be joined with high welding speeds, thin and small weld seams and low thermal distortion.
    1. PageWelding Methods In laser welding one must distinguish between two main processes: heat conduction welding and deep penetration welding.
    2. PageLaser Deposit Welding Laser deposit welding allows repair work, wear resistance can be improved, small design modifications can be realized and manufacturing faults can be corrected.
  3. FolderLaser Marking The laser marks virtually all metals and plastics and various other materials with high contrast and without adding any undesirable substance.
    1. PageLaser Marking Methods In industrial laser marking four marking methods are commonly used: Engraving, Annealing, Color change, Surface removal. Today most applications use vectorized marking data.
    2. PageLED 
  4. PageLaser Perforating Lasers, especially high-frequency excited, fast modulating CO2 lasers with extraordinary power stability, are especially suited for perforating paper or plastic foils.
  5. FolderLaser Structuring Precise, local ablation of thin layers of material is finding its way into many different areas of industrial production.
    1. PageLaser Ablation Selective laser ablation is applied where individual layers have to be ablated without significantly damaging the layers or substrates below.
    2. PageLaser Annealing The lasersystem Waferlase® is the industrial turnkey solution for front-end-of-line (FEOL) processing in the semiconductor industry.
  6. FolderSurface Treatment Surface treatment is a collective term for applications where the laser radiation does not penetrate the material very deeply.