Seri Speedy: Mesin pemotong dan laser CO2 pengukir untuk format hingga 1016 x 610 mm
⚫ Pengukiran | ⚫ Pemotongan | ⚫ Penandaan |
Jenis Laser: | Laser CO₂, Flexx, atau Fiber |
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Bidang kerja: | 610 x 305 hingga 1016 x 610 mm |
Tinggi bidang kerja maks.: | 125 - 305 mm |
Daya Laser: | 20 - 120 watt |
Seri SP: Laser CO2 pemotong untuk bahan dengan format besar.
⚫ Pengukiran | ⚫ Pemotongan | ⎯ Penandaan |
Jenis Laser: | Laser CO₂ |
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Bidang kerja: | 1245 x 710 hingga 3250 x 3210 mm |
Tinggi bidang kerja maks.: | 50 - 112 mm |
Daya Laser: | 40 - 400 watt |
Stasiun laser penanda dengan kepala penanda galvo. Bidang penanda hingga 44,1 x 25,0 inci.
⚫ Pengukiran | ⎯ Pemotongan | ⚫ Penandaan |
Jenis Laser: | Laser CO₂ atau Fiber |
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Max. work area: | 190 x 190 hingga 1300 x 450 mm |
Tinggi bidang kerja maks.: | 250 - 764 mm |
Daya Laser: | 20 - 100 watt / 20 watt MOPA |
In this tutorial, we will show you how to engrave or deep engrave metals using a MOPA laser. We will also provide time-optimized and quality-optimized laser parameters for deep engraving of metals.
The process of engraving involves the removal of material from a solid surface. Because of the very high intensity of the laser, materials such as steel, titanium and (almost) all other metals can be vaporized directly. This is possible due to the high pulse power of the fiber laser (with Trotec up to 10 kW peak power) in combination with a very small laser spot diameter (with Trotec ~ 45 μm with the F-160 lens). With this method, texts, logos, serial numbers or other contents can be engraved into the material. The volume of the material is reduced and its color is changed. The resulting brown areas consist of metal oxides (or rust), which can be cleaned with a second cleaning cycle using polishing parameters. Engraving on stainless steel requires high power, low frequency (which results in high power per pulse) and marking speeds of 250 - 900 mm/sec.
The laser process for deep engraving is fundamentally identical to engraving, but with more passes. In these tips we describe two different sets of parameters:
Please note that the set of parameters used to achieve optimal quality (2) takes about three times as long to reach the same engraving depth. A 20 watt MOPA laser with F-160 lens is used in both cases. The time-optimized engraving results are shown at the top of the image, and the quality-optimized engraving results are shown at the bottom.
Power | Speed | Frequency | Pulse duration |
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100% | 250 mm/s | 60 kHz | 200 ns |
Focus | Filling lines distance | Passes | Engraving time |
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In focus | 0.03 mm bidirectional | 32 (for 200 μm depth) | 112 seconds (5x5 mm square) |
Power | Speed | Frequency | Pulse duration |
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100% | 900 mm/s | 180 kHz | 200 ns |
Focus | Filling lines distance | Passes | Engraving time |
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In focus | 0.03 mm bidirectional | 450 (for 200 μm depth) | 375 seconds (5x5 mm square) |
We are happy to advise you.
As you can see from this example, there are many possibilities with deep engraving of metals. Different parameters can be used depending on the requirements to be fulfilled. In the time-optimized variant, a great deal of material evaporates in a few passes (at a comparatively slow speed), and the quality-optimized variant uses significantly more (and faster) passes in order to remove the material in a more uniform and controlled manner.
Our experts from the application laboratory will be happy to consult with you regarding your requirements and they will be happy to sample your materials.