The transmission shaft typically fails due to damage, wear, or deformation, which results in the failure of mechanical equipment and impairs the equipment’s ability to function normally.
These issues can be successfully resolved, localized directional cladding processing enabled, the bearing position of the transmission shaft strengthened structurally, and the parts made more resilient thanks to ultra-high-speed laser cladding technology.
Project background
Motor Shaft A great way to make worn or damaged components like-new again is via laser cladding. This procedure enables precise repairs that are substantially stronger than conventional welding techniques by employing lasers to deposit metal alloys on the surface of a drive shaft. It can be used to repair cracks, replace missing pieces, replace worn-out teeth, and increase wear resistance.
Additionally, laser cladding contributes to reduced vibration and noise, which enhances drive shaft performance. The component can be restored to its former size and shape using this method, ensuring that it is sturdy enough to resist the strains of routine use. Additionally, laser cladding enhances the drive shaft’s look by removing corrosion and other wear-and-tear-related damage.