The cutting thickness of high power laser cutting machine
The cutting thickness of high power laser cutting machine.
At present, with the continuous development of laser cutting technology. The cutting ability of high-power laser cutting machine greatly improved. Taking our commonly used stainless steel and carbon steel as an example. The high-power laser cutting machine can process up to 36mm in the most extreme cutting state; the stainless steel can reach 25mm.
However, in order to ensure the processing efficiency, the general cutting thickness is less than 25mm for carbon steel and less than 16mm for stainless steel to achieve the best cutting speed and precision.
At present, the maximum cutting capacity of high-power laser cutting machine in the industry:
Firstly, Carbon steel is 36mm (the quality of the steel plate is good. The speed can be about 650mm/min). If the material of 36mm steel plate is good, the machine is good. The cutting quality is still very good. The stainless steel is 25mm , but the domestic users generally aim for laser cutting, low carbon steel 25mm or less, stainless steel 16mm or less.
However, for carbon steel sheets up to 10 mm, high power laser cutting machines of 1000 W. This is because the laser cutting has a narrow cutting width, generally between 0.1 and 0.5 mm; the cutting precision is very high, less than 0.05 mm. And the hole center error is between 0.1 and 0.4 mm, and the contour size error is also 0.1 to Between 0.5mm. The cutting section is smooth, the roughness of the incision is less than 25μm.
Generally speaking, it use a high-power laser cutting machine for cutting metal materials. Such as carbon steel sheets within 12 mm or stainless steel sheets within 10 mm. High-power laser cutting machine has no cutting force, no distortion in processing. Whether it is simple or complex parts, laser can be used for precision precision rapid cutting: its slit is narrow. Cutting quality is good, automation degree High, easy to operate, low labor intensity.No pollution: automatic cutting and nesting can be realized, material utilization rate is improved, production cost is low, and economic benefits are good.