Handheld Fiber Laser Welding Machine SF3000HWM
Description
Laser welding is a welding method that uses a focused laser beam as an energy source to bombard the weldment with the heat generated.
Because the laser has optical properties such as refraction and focusing, laser welding is very suitable for the welding of micro-parts and parts with poor weldability. Laser welding has the characteristics of low heat input, small welding deformation, and is not affected by electromagnetic fields.
The welding process is of thermal conductivity type, that is, the surface of the workpiece is heated by laser radiation, and the surface heat is diffused to the inside through heat conduction. By controlling the laser power, swing width, frequency and other parameters, the workpiece is melted to form a specific molten pool.
Handheld Fiber Laser Welding Machine SF3000HWM
Specifications |
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|---|---|
| Materials: | Stainless Steel, Iron, Galvanized Steel, Aluminum, Nickel, Titanium |
| Welding Process: | Direct Laser Welding, Transmission Welding, Keyhole Welding, Precision Welding, Seam Welding, Sheet Welding, Pipe Welding, Spot Welding |
| Laser Type: | Fiber Laser |
| Laser Output Power: | 3000 W |
| Wavelength: | -- nm |
| Welding Mode: | Continuous Wave (CW) |
| Fiber Length: | 10 m |
| Laser Cooling Mode: | Water-to-Water |
| Voltage Requirement: | Other / Not Specified |
Features
- The heat input can be reduced to the minimum required amount, the metallographic change range of the heat-affected zone is small, and the deformation caused by heat conduction is also the lowest.
- There is no need to use electrodes, and there is no concern about electrode contamination or damage. And because it is not a contact welding process, the wear and deformation of the machine tool can be minimized.
- The laser beam can be focused on a small area, and small and closely spaced parts can be welded.
- There is a wide range of weldable materials, and various heterogeneous materials can also be joined to each other.
- It is easy to automate high-speed welding, and it can also be controlled by digital or computer.
- When welding thin materials or thin-diameter wires, there is no trouble of melting back like arc welding.
- It is not affected by the magnetic field (arc welding and electron beam welding are easy), and can accurately align the weldment.
- Two metals with different physical properties (such as different resistances) can be welded.
Applications
- Stainless steel
- Carbon steel
- Aluminum
- Chromium
- Nickel
- Titanium and other metals
For pricing, technical or any other questions please contact the supplier
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Frequently Asked Questions
Laser welding is a welding method that uses a focused laser beam as an energy source to heat and join materials together.
Laser welding has low heat input, minimal welding deformation, and is not affected by electromagnetic fields. It also allows for precise control and automation, and can weld a wide range of materials.
Yes, laser welding is very suitable for the welding of micro-parts and parts with poor weldability due to its focused laser beam and precise control.
No, laser welding does not require the use of electrodes, eliminating concerns about electrode contamination or damage.
Laser welding can be used to weld stainless steel, carbon steel, aluminum, chromium, nickel, titanium, and other metals.