Speedy series: CO2 laser engraving and cutting machines for formats up to 1016 x 610 mm
⚫ Engrave | ⚫ Cut | ⚫ Mark |
Laser type: | CO₂, Flexx or Fiber laser |
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Work area: | 610 x 305 up to 1016 x 610 mm |
Max. workpiece height: | 125 - 305 mm |
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: | 1245 x 710 up to 3250 x 3210 mm |
Max. workpiece height: | 50 - 112 mm |
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: | 190 x 190 up to 1300 x 450 mm |
Max. workpiece height: | 250 - 764 mm |
Laser power: | 20 - 100 watts / 20 + 100 watts MOPA |
Trotec runs a global network of application engineers who are experts in handling Trotec lasers. Their tasks include carrying out the feasibility studies on customer materials and supporting the sales teams in demonstrations and application tests. Determination of the optimal laser parameters for a wide variety of materials is likewise within the responsibility of this team. In addition, the application engineers constantly develop new applications and samples of materials for which Trotec laser machines can be used.
To determine the optimal engraving quality or production speed, for the individual materials (acrylic, wood, ...) tests are performed on Trotec laser equipment. The optimal parameters are provided to Trotec customers via the material database of the JobControl laser software. This material database is continuously updated and saves the laser users laborious preliminary tests.
To demonstrate the variety of laser applications, the application engineers constantly develop new application examples. These are offered on the Trotec site for downloading – as inspirations, for making your own and for selling. Discover the applications of Trotec laser equipment.
Before the purchase of a laser, Trotec application engineers create feasibility studies for the customer’s application. To this end, tests are performed on the desired materials and discussed with the customer. Depending on the quality and processing speed required by the customer, this will identify the optimal laser parameters.