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PRODUCT DESCRIPTION | ||
NO. | ITEM | DESCRIPTION |
1 | Material | Steel, aluminum, brass and so on |
2 | Dimension L*W*H | Custom |
3 | Thickness of material | Common 0.2-20 mm |
4 | Process | Laser cutting |
5 | Tolerance | +/-0.05mm |
6 | Surface treatment | Anodizing, powder coating, galvanization and so on |
7 | Application | Industry |
8 | Warranty time | 1 year |
9 | Place of Region | Jiangsu province of China |
10 | Samples service | Available |
Brief of laser cutting
The process of laser cutting involves the use of a laser to vaporize materials and create precise cuts. Although it was originally used in industrial manufacturing, it is now widely utilized by schools, small businesses, architects, and hobbyists. To operate, a high-power laser is directed through optics using CNC technology. A motion control system is used to follow a CNC or G-code pattern, allowing the laser to cut the material. The laser beam is focused on the material, causing it to melt, burn, vaporize, or be blown away by gas. The result is a clean, high-quality edge finish.
▼Product picture
Metalli's laser cutting process capability
● Product dimension up to 2000*2000 mm Length*Width
● Wall thickness up to 15 mm
● General tolerance ±0.05 mm or less
● CO2 lasers and Fiber lasers are available
How Does Laser Cutting Work?
Laser cutting uses a high-power laser which is directed through optics and computer numerical control (CNC) to direct the beam or material. Typically, the process uses a motion control system to follow a CNC or G-code of the pattern that is to be cut onto the material. The focused laser beam burns, melts, vaporises or is blown away by a jet of gas to leave a high-quality surface finished edge.
This process can be broken down into three main techniques - CO2 laser (for cutting, boring, and engraving), and neodymium (Nd) and neodymium yttrium-aluminium-garnet (Nd:YAG), which are identical in style, with Nd being used for high energy, low repetition boring and Nd:YAG used for very high-power boring and engraving. All types of lasers can be used for welding.
PRODUCT DESCRIPTION | ||
NO. | ITEM | DESCRIPTION |
1 | Material | Steel, aluminum, brass and so on |
2 | Dimension L*W*H | Custom |
3 | Thickness of material | Common 0.2-20 mm |
4 | Process | Laser cutting |
5 | Tolerance | +/-0.05mm |
6 | Surface treatment | Anodizing, powder coating, galvanization and so on |
7 | Application | Industry |
8 | Warranty time | 1 year |
9 | Place of Region | Jiangsu province of China |
10 | Samples service | Available |
Brief of laser cutting
The process of laser cutting involves the use of a laser to vaporize materials and create precise cuts. Although it was originally used in industrial manufacturing, it is now widely utilized by schools, small businesses, architects, and hobbyists. To operate, a high-power laser is directed through optics using CNC technology. A motion control system is used to follow a CNC or G-code pattern, allowing the laser to cut the material. The laser beam is focused on the material, causing it to melt, burn, vaporize, or be blown away by gas. The result is a clean, high-quality edge finish.
▼Product picture
Metalli's laser cutting process capability
● Product dimension up to 2000*2000 mm Length*Width
● Wall thickness up to 15 mm
● General tolerance ±0.05 mm or less
● CO2 lasers and Fiber lasers are available
How Does Laser Cutting Work?
Laser cutting uses a high-power laser which is directed through optics and computer numerical control (CNC) to direct the beam or material. Typically, the process uses a motion control system to follow a CNC or G-code of the pattern that is to be cut onto the material. The focused laser beam burns, melts, vaporises or is blown away by a jet of gas to leave a high-quality surface finished edge.
This process can be broken down into three main techniques - CO2 laser (for cutting, boring, and engraving), and neodymium (Nd) and neodymium yttrium-aluminium-garnet (Nd:YAG), which are identical in style, with Nd being used for high energy, low repetition boring and Nd:YAG used for very high-power boring and engraving. All types of lasers can be used for welding.
