Speedy series: laser engraving and cutting machines for formats up to 40 x 24 inches
⚫ Engrave | ⚫ Cut | ⚫ Mark |
Laser type: | CO₂, Flexx or Fiber laser |
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Work area: | 24.0 x 12.0 up to 40.0 x 24.0 inch |
Max. workpiece height: | 4.9 - 12.0 inch |
Laser power: | 20 - 120 watts |
SP series: CO2 laser cutter for large-format materials.
⚫ Engrave | ⚫ Cut | ⎯ Mark |
Laser type: | CO₂ laser |
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Work area: | 49.0 x 28.0 up to 128.0 x 126.4 inch |
Max. workpiece height: | 2.0 - 4.4 inch |
Laser power: | 40 - 400 watts |
Marking laser stations with galvo marking heads. Marking area up to 44.1 x 25.0 inch.
⚫ Engrave | ⎯ Cut | ⚫ Mark |
Laser type: | CO₂ or Fiber laser |
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Max. work area: | 7.5 x 7.5 up to 51.2 x 17.7 inch |
Max. workpiece height: | 9.8 - 30.1 inch |
Laser power: | 20 - 100 watts / 20 + 100 watts MOPA |
Finding the correct laser parameters is a crucial step in achieving optimum results with your marking tasks. Here is a guide to show you how to define the correct parameters for marking metals, plastics, and coated materials.
SpeedMarker laser systems can laser mark many different materials, including all kinds of plastics -- which are different in their chemical composition and react differently on laser impact. This makes it very important to define the correct parameter for the best results.
If you need to laser mark new materials or different applications, utilizing the laser parameter finder is the perfect resource for you. Through the process of marking a parameter matrix on the material, you easily can locate the accurate parameters desired for speed, power, and frequency. Utilizing the static matrix with a singular fixed variable (defined by the user), the other variables are recorded on a matrix.
The Material Database is easy to use and helps reduce set-up times. There is a pre-defined and optimized laser parameter database for the most commonly used materials. This database can also easily be enhanced when you add the laser parameters that you identify for your individual applications and materials.