Laser deburring increases component quality

Beim Laserentgraten bilden sich glatte, runde Kanten, die sowohl Schnittverletzungen als auch Kabel- und Oberflächenbeschädigungen vorbeugen. © Fraunhofer ILT

Burrs on the cut and punched edges of sheet metal increase the risk of injury and often cause cable damage and scratched surfaces.
For this reason alone, it makes sense to deburr edges. If this is done by laser, the fatigue strength of the components also increases, edges can be specifically reinforced and the tendency to crack formation is reduced. The Fraunhofer Institute for Laser Technology ILT in Aachen will be presenting state-of-the-art laser deburring processes at Euroblech. Interested parties can also find out more about laser polishing of sheet metal.

Laser deburring has become established in some large-scale production processes in the automotive industry over the last decade.
“But the potential of this technology is far from exhausted,” says Dr. Edgar Willenborg, an expert in laser polishing and laser deburring at the Fraunhofer ILT.
However, deburring sheet metal in particular is uncomplicated, improves component quality – and with processing speeds of up to twelve meters per minute, it is also fast and efficient.

A long list of benefits

In principle, deburring is necessary to minimize the risk of injury. In addition, sharp burrs on cut and punched edges are often the cause of damaged cables and scratched surfaces.
Until now, mechanical processes have usually been used to remove burrs. However, research by the Fraunhofer ILT shows that laser processes have clear advantages here.
The process itself is uncomplicated.

“The laser focus must hit the front of the sheet edge and cover it completely,” explains Willenborg. There, the focused beam of light briefly melts the metal edge and burr. The surface tension then causes the liquid metal to smooth itself out. This creates a rounded edge. “By using a different process, it is possible not only to round off the edge, but also to strengthen it in a targeted manner,” says the expert. To do this, the power of the laser is increased. This additional energy input melts more material, which is placed around the edge like a reinforcing round seam. The smooth, round edges prevent cuts as well as damage to cables and surfaces. But the laser process can do more. It leaves defect-free edges. “This results in clear advantages in the fatigue strength and mechanical forming behavior of the sheet metal components,” emphasizes Willenborg.

Tests with high-strength steel show that its fatigue strength increases by 220 percent as a result of laser deburring. At the same time, the degree of forming up to the edge crack also increased by 240 percent. The expert explains the positive effects by the fact that laser melting eliminates any micro-defects from the mechanical processing of the edges.
Such pre-damage, which is invisible to the naked eye, is often the starting point for crack formation.

Laser deburring is fast, clean and inexpensive

According to Willenborg, another major advantage of laser deburring over mechanical processes is that no grinding dust is produced. Instead of removing it, the excess material is only melted briefly. This also contributes to the fact that laser deburring is comparatively easy to integrate into existing process chains and production environments. Where integration is practicable, the benefits quickly become apparent.

“Laser deburring is particularly advisable for highly stressed components,” he emphasizes. He cites chassis parts as an example: The increased fatigue strength in the edge area allows their manufacturers to design them to be thinner and therefore lighter and ultimately more fuel-efficient. When it comes to formed 3D sheet metal components, the laser can be mounted on robots. The fact that fiber-coupled diode lasers are already in use for deburring is an advantage here. According to Willenborg, the standard lasers in the near-infrared wavelength range are also inexpensive and readily available.

From the conference in Aachen to the trade fair in Hanover

“Just one week before Euroblech, on 15 and October 16, 2024, the 6th Conference on Laser Polishing – LaP will take place at the Fraunhofer ILT in Aachen,” he says. The international scientific conference offers ample opportunity for in-depth technical discussions on all aspects of laser polishing and laser deburring.

Euroblech Hall 27, Stand D142
Web: www.ilt.fraunhofer.de