Laser cutters are powerful tools that can be used to cut a variety of materials, including metal sheets. This process involves using a laser beam to cut through the metal sheet with high precision. Additionally, Fiber laser welder is also becoming increasingly popular in a wide range of industries. Because the most of industries need it to apply for fiber process. In this article, we will explore how laser cutters can be used to cut metal sheets？And also tell you how fiber laser welders work?
Laser Cutters For Many Applications
Firstly, laser cutters can be used to cut metal sheets into the desired shape. This process involves using a laser beam to cut through the metal sheet with high precision. The laser beam is very precise and can be used to create intricate designs or shapes. This makes it ideal for creating custom parts or components for a variety of industries.
Secondly, laser cutters can be used to create patterns on metal sheets. This process involves using a laser beam to create intricate patterns on the metal sheet. This process is often used to create decorative items or artwork for a variety of industries.
Thirdly, laser cutters can be used to weld metal sheets together. This process involves using a laser beam to heat the edges of two metal sheets. Once the edges are heated, they can be fused together to create a single piece. This process is often used to create custom parts or components for a variety of industries.
Finally, laser cutters can be used to engrave text or images onto metal sheets. This process involves using a laser beam to etch the desired text or image onto the metal sheet. This process is often used to create signs, labels, or logos for a variety of industries.
4 Key Points Using Laser Welding Machine For Metal
Here are some key points about using laser welding machine for metal:
• Laser welding machine, also known as laser welders or laser welding robots, can weld almost all types of metals including:
- Steel – Laser welders are ideal for welding steel sheets, plates and heavy steel sections. They produce deep welds with high strength and minimal distortion.
- Aluminum – Laser welding works well for aluminum alloys and produces strong, leak-proof welds with minimal warping or cracking.
- Titanium – The concentrated heat of lasers ensures alloy elements remain mixed, preventing weak spots in titanium welds. Laser welding is used for aerospace titanium components.
• Laser welders can weld thin metal sheets as well as thick sections. Mild steel up to 3/4 inch thick can typically be welded, with high-power lasers handling 1 inch thick or more. Deep welds with minimal warping result even for thick materials.
• Laser welding is often quicker than other methods like arc welding. Faster welding speeds can be achieved while still ensuring high weld quality due to control and precision. Throughput is improved especially for welding long seams.
• Laser welding produces strong, durable welds. Deep penetration into base metals provides greater strength. Minimal detrimental effects on material properties result compared to other welding methods. Tensile strength of laser welds often equals or betters base metal strength.
How Fiber Laser Welders Work
Fiber laser welder uses a beam of light to create a weld. This beam is created by a laser source, typically a diode laser. The laser is then focused through an optical system, which is typically made up of lenses and mirrors. The beam is then directed to a welding head, which is where the weld is created.
The welding head is equipped with a focusing lens, which is used to focus the laser beam onto the workpiece. The lens is also used to adjust the size of the laser beam, as well as the power of the beam.