LASER METAL DEPOSITION FROM EMAG LASERTEC:
BRAKE DISKS FOR THE WHOLE LIFE OF A CAR
P
articulate reduction and corrosion protection are big changes in brake disk technology. Manufacturers rely on carbide-coated brake disks that are practically wear-free. However, coating them with tungsten carbide is a particular challenge because the process must be reliable and efficient. With the new ELC 450 LMD (“Laser Metal Deposition”) machine, the laser welding specialists from EMAG LaserTec now off er a practical alternative – apply the multi-layered, powdered metal to the brake disk using a laser welding process. The powder melts completely in the laser beam without wasting material.
THE PROCESS IN DETAIL:
10
1
WEIGHING:
2
LASER CLEANING:
3
PREHEAT:
After loading, the component is initially weighed in an uncoated state. This value serves as a reference in order to be able to determine the “coating weight” later (during the second weighing after an initial pass).
Working materials and dirt are removed from the blank without leaving any residue.
Induction technology from EMAG eldec ensures an ideal processing temperature.
4
LASER CLADDING:
5
MEASURING/TURNING:
One layer is applied per laser process – first an adhesive layer, then the carbide coating.
Here, the component is measured and (after two coating passes) turned over to process the second side. The coating process then starts all over again. Finally (after a total of 4 passes), the component is unloaded.