They are very fast:
The laser allows the metal to be heated extremely quickly, while limiting the risk of deformation.
This technology is particularly effective for welding large quantities of sheet metal and is therefore widely used in the automotive industry.
They are also highly accurate:
They allow a localized, very fine, very clean, almost invisible welding.
They are particularly suitable for welding small parts.
This type of welding is very popular in the dental and jewellery industries as it provides the most aesthetic welding possible.
It is also possible to split the laser beam into several beams to provide welding that is even more accurate.
They can be adapted to a wide variety of part shapes and materials:
Laser welding machines are mainly used to weld metals, including refractory metals.
It is also possible to weld non-metallic parts with them, such as porcelain and glass.
You can use them to weld parts with very different shapes.
They do not wear out:
Laser welding machines operate without contact, so there is no risk of wear and tear on the machine.
There is also no need to change tools or electrodes, which is a definite advantage in terms of waste reduction.
They can be given orders digitally:
It is now possible to control the quality of the welding from a computer during the welding process.
The high level of automation allowed by such a process also makes it possible to detect and solve any quality problems.
They are VERY affordable
Fiber laser welding is now with our Lasermach WOBBLE Handheld fiber laser welding machine VERY affordable and accesable for every company
Gas Metal Arc Welding (GMAW) vs Fiber Laser Welding
GMAW or MIG is a traditional technique using a consumable electrode that works well for larger, badly fitting parts.
Fiber laser welding does not use consumable electrodes, requires less edge preparation, is easily automated and is up to 5x faster.
Fiber lasers also provide more precision, and lower heat input.
Gas Tungsten Arc Welding (GTAW) vs Fiber Laser Welding
GTAW or TIG uses a non-consumable electrode and provides better process control than GMAW but any filler has to be added separately.
Fiber lasers are up to 10x faster with higher precision, lower heat input, and are more easily automated.
Plasma Arc Welding (PAW) vs Fiber Laser Welding
PAW is faster than GTAW, but much slower than laser welding. Having a large melt pool, PAW is good for badly aligned parts, but creates too much heat for many applications.
Fiber lasers offer higher precision, are faster, and have lower heat input in a non-contact process.
Laser Wobble Welding is as effective on misaligned parts and does not require daily maintenance of the process head.
Resistance Spot Welding (RSW) vs Fiber Laser Welding
RSW is typically used for joining two pieces of material that are stacked on top of each other.
Fiber lasers only need single-side access, are much faster, and produce higher-strength welds.
Fiber lasers do not require electrodes and eliminate the costs and time for electrode replacement.
Electron Beam Welding (EB) vs Fiber Laser Welding
EB welding provides excellent weld quality and a low heat affected zone. Because the process is in a vacuum chamber, contaminant levels are very low.
Fiber laser welding speed is similar to electron beam, but because lasers do not require part transfer through a vacuum chamber, laser cycle time is dramatically shorter.