LASER CUTTING PROCESS
Laser cutting is a modern and widely used material processing technique. The cutting tool in this method is a high-energy-density laser beam that cuts through the material. Laser cutting is suitable for processing metallic, non-metallic and composite materials, which makes it highly versatile and popular.
Laser cutting process sequence
The laser cutting process is based on the interaction of the laser beam at its focal point, where its power and energy density are the highest, causing rapid melting, evaporation, ablation and heating of the cut material to ignition temperature. The area where the beam hits the material is flushed with a fast-flowing gas that removes the molten material along the beam axis. Laser cutting belongs to the group of hot material processing techniques.
| LASER POWER |
90W (Reci W1 tube) (option*: 60W) |
| WORKING AREA |
600 x 400 mm |
| DIMENSIONS |
1360 x 850 x 950 mm |
| POSITIONING ACCURACY |
± 0.05 mm |
| VOLTAGE |
230V |
| POWER |
1000W |
| OPERATING TEMPERATURE |
0–45 ℃ |
| OPERATING HUMIDITY |
5–95% |
| OPERATING SYSTEM |
Windows 95, 98, 2000, XP, Vista, 7, 8, 10 (32/64 bit) |
| INPUT FILE FORMATS |
PLT, AI, DST, DXF, BMP |
| COMPATIBLE SOFTWARE |
CorelDraw, AutoCAD, Photoshop |
| DRIVE TYPE |
Stepper motors |
| HEAD COOLING |
Water |
| MATERIAL COOLING |
air, gas |
