English
Laser cladding is a process that applies cladding material onto a substrate surface while simultaneously using a high-energy-density laser beam to fuse the material with the thin layer. The metallurgical bond between the cladding and substrate significantly enhances the material's surface properties, including wear resistance, corrosion resistance, heat resistance, and oxidation resistance. This achieves surface modification or repair, meeting specific performance requirements while substantially reducing material costs.
plant parameter
| device name | 3D laser cladding equipment | ||
| fibre laser | Raycus | laser power | 3KW-12KW |
| manipulator load | 25KG | repositioning accuracy | ±0.03mm |
| robot arm extension | 1831mm | additional axis | Axis-type chuck, ground rail, rotary positioner, etc. |
| feed rate | 0.4-300g/min | spot size | 2-5mm |
| nozzle structure | coaxial ring | supply voltage | Three-phase 380V,50/60Hz |
Laser cladding can be utilized during the initial manufacturing of components to enhance their wear resistance, corrosion resistance, and high-temperature performance. It is also applicable in product refurbishment or maintenance. Common applications include repairing workpieces such as spindles, grinding tools, bearings, turbine blades, gears, and cutting tools. The cladding process can be applied to large areas or targeted at specific critical zones.
Laser cladding equipment is widely used in petrochemical, shipbuilding, automobile, hydropower, mould, steel and other industries. It can effectively solve the problems of wear, cracking and failure of parts, and can also extend the service life of products. It has considerable economic benefits especially for the repair of high value-added products.
Laser cladding sample
Customer site-live machine