What is laser cutting
Laser cutting is to irradiate the workpiece with a focused laser beam to rapidly melt, vaporize or reach the ignition point of the irradiated material, and at the same time, blow off the melted or vaporized material with the aid of an auxiliary air flow, thereby completing the cutting.
Because the laser beam can be focused to very small spots, the heat source is concentrated and the radiation illuminance is high.
Compared with the traditional oxyacetylene flame cutting and plasma cutting, laser cutting has the advantages of good cutting quality, fast cutting speed, large processing flexibility and wide material adaptability, which conforms to the development direction of the transformation and upgrading of the manufacturing industry.
![Compare Laser Cutting With Traditional Cutting Compare Laser Cutting With Traditional Cutting](https://www.laseretrofit.com/wp-content/uploads/2022/09/Laser-cutting.jpg)
Advantages of laser cutting
![Compare Laser Cutting With Traditional Cutting Compare Laser Cutting With Traditional Cutting](https://www.laseretrofit.com/wp-content/uploads/2022/09/fiber-laser-cutting-machine.jpg)
1. Good incision quality
Narrow incision, good parallelism and perpendicularity, smooth cutting surface and narrow heat affected zone
2. Fast cutting speed and high efficiency
The cutting speed is much higher than the traditional cutting method. For example, the 1200W CO2 laser is used to Cut 2mm thick low-carbon steel plate, and the cutting speed can reach 6 / min.
3. Large processing flexibility
Through programming, it can cut plate parts of any shape and size. It can be programmed automatically to optimize the arrangement of cutting parts and the cutting path, so as to reduce material loss and empty path.
4. Wide adaptability of materials
It can cut almost any metal and non-metal materials, including high hardness, high melting point, brittle and viscous materials.
Compare laser cutting with traditional cutting
Cutting Method | Brief Introduction | Compare with laser cutting |
Thermal cutting | Such as oxygen- combustible gas (such as acetylene) cutting and plasma cutting | Wide cut, large heat affected area, obvious workpiece thermal deformation, non-metallic cutting is not allowed. |
Machining | Mechanical stamping, shearing, sawing and other processing methods | It will cause blade deformation, burr and wear, wide incision, low material utilization rate, great threat to operator safety, and serious noise and dust pollution. |
Electric machining | Generally, there are two methods, EDM and electrochemical machining, which use electric corrosion and dissolution effect. They are mostly used for fine machining of hard materials with good notch roughness. | The cutting speed is several orders of magnitude slower than laser cutting. |
Water cutting | When water is pressurized to 2700 ~ 5500kg / cm2, many materials can be cut through the high-pressure water flow formed by the small-diameter sapphire nozzle. | Many consumables, high operating costs, complex processes and low accuracy. |