Laser cladding protects complex bucket teeth shapes, forming stronger metallurgical bonds than traditional solutions.
Laser cladding with 1200–1500HV hardness extends coating life 15 times longer than thermal spray, offering customizable wear resistance.
Mining chutes benefit from laser cladding, creating ceramic-reinforced layers that enhance durability, wear resistance, and reduce maintenance costs.
Nickel-based alloy laser cladding offers superior corrosion resistance for offshore wind turbines, reducing maintenance costs and extending component life.
High-speed laser cladding strengthens and repairs oil drilling components, improving surface durability and reducing downtime.
Custom laser cladding materials improve high-temperature wear resistance of boiler tubes, boosting efficiency and reliability in biomass power generation.
We work with all external surface shapes.
Laser cladding is a highly cost-effective surface modification technique. It enables the fabrication of high-performance alloy surfaces on inexpensive metal substrates without compromising substrate properties. This is significant in terms of cost reduction and savings in precious metals.
Under a high-energy laser beam, the alloy powder and a thin layer on the substrate surface are melted and rapidly solidified, followed by the formation of a surface cladding with a meager dilution rate and a metallurgical bond with the substrate. The elimination of inclusions and refinement of the microstructure significantly improves the corrosion resistance of the surface, thereby prolonging the service life of the mechanical parts, achieving the goals of local strengthening and overall benefit.
Utilize laser cladding on wear surfaces to enhance sustainability by extending lifespan and efficiency.
Contact us to see our extensive resources and cutting-edge research in laser cladding, designed to optimize performance and extend the life of your critical components.
Contact us today for free conslutaion or more information.
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