As modern industrial equipment evolves towards higher performance and longer service life, various components often face severe surface damage challenges under complex operating conditions. Many critical components, such as rotor blades, shafts, gears, and molds, commonly fail prematurely due to surface wear, corrosion, or fatigue, leading to significant economic and production losses. In this context, فناوری آلیاژکاری لیزری has emerged as an effective solution for the repair and performance enhancement of high-value components.

1. Overview of Laser Cladding Technology and Its Repair Advantages

پوشش‌دهی لیزری is an additive repair technology that uses a high-energy laser beam to melt alloy powders onto a substrate surface, creating a metallurgically bonded layer with excellent performance. Compared to traditional repair processes such as vacuum brazing, TIG welding, and plasma cladding, پوشش‌دهی لیزری has notable advantages including low heat input, precise deformation control, dense coating structures, and high bonding strength.

This technology allows for the selective use of various alloy materials, such as iron-based, nickel-based, and cobalt-based alloys, to restore and enhance properties such as wear resistance, corrosion resistance, oxidation resistance, and fatigue resistance. As a high-precision and low-thermal-impact repair method, پوشش‌دهی لیزری has demonstrated significant success in repairing critical components across various industrial fields.

2. Laser Cladding Repair Applications for Rotor Blades

Rotor blades, as key components in power equipment, are subjected to high temperatures, high pressure, corrosion, and complex mechanical loads, making them highly susceptible to wear, corrosion, and cavitation damage. پوشش‌دهی لیزری offers an effective repair solution that not only restores the geometry of the blades but also significantly improves surface performance and extends their service life.

2.1 Aircraft Engine Blade Repair

Aircraft engine blades are typically made from high-performance nickel-based superalloys, which are prone to defects such as shrinkage porosity during casting or usage. By using پوشش‌دهی لیزری for localized repair, it is possible to precisely control the heat-affected zone, preventing degradation of the base material’s properties while achieving a directional solidification structure that matches the base material. Research indicates that پوشش‌دهی لیزری repairs on blades meet the stringent performance and service life requirements of aircraft engines.

2.2 Steam Turbine Blade Repair

Steam turbine blades are most commonly damaged by cavitation on the leading edge and root. Compared to traditional welding repair methods, پوشش‌دهی لیزری‘s low heat input can effectively control deformation, ensuring the blade’s shape accuracy and dynamic balance after repair. By selecting the appropriate alloy powder, the repaired area can achieve superior cavitation resistance, thereby enhancing both repair and strengthening performance.

3. Laser Cladding Repair for Shaft Components

Key shaft components, such as rolling mills and drive shafts, often fail due to surface wear. Using پوشش‌دهی لیزری technology, a high-performance alloy coating can be deposited on the worn surface, restoring dimensional accuracy while improving hardness and wear resistance.

For large rolling mills, پوشش‌دهی لیزری not only recovers costly components but also significantly extends their service life by optimizing the cladding material. پوشش‌دهی لیزری-repaired rolling mills can last 1.5 times longer than new ones, with repair costs being only 30%-50% of the cost of new components. The same repair benefits apply to drive shaft components that experience wear as the primary form of failure.

4. Mold Repair and Reinforcement Using Laser Cladding

Mold manufacturing is costly and time-consuming, and their failure often results in surface wear or mechanical damage. پوشش‌دهی لیزری offers a solution for repairing failed molds by forming a metallurgically bonded reinforcement layer in the damaged area, restoring functionality.

The mold repair process involves using a high-power laser beam and a synchronized powder feeding system to create a melt pool in the damaged area, which then quickly solidifies to form a coating that tightly bonds with the base material. This method not only precisely restores mold dimensions but also allows customization of the coating composition to enhance surface performance according to specific needs.

5. Other Key Component Repair Cases Using Laser Cladding

5.1 Valve Seat Repair

Valve seats, which are subject to medium erosion and corrosion, are often poorly repaired using traditional methods due to weak bonding strength and numerous coating defects. By applying پوشش‌دهی لیزری with NiCrBSi and CoCrW alloy coatings on exhaust valve seats, high-quality coatings can be achieved, free of porosity and cracks, with wear and corrosion resistance improved by 3-4 times.

5.2 Steam Turbine Nozzle Assembly Repair

The steam turbine middle cylinder nozzle assembly is relatively thin, and traditional welding repairs often cause deformation and cracking. پوشش‌دهی لیزری, with its precise energy control and localized processing characteristics, effectively solves the repair challenges for thin-walled parts, with the repaired nozzle assembly fully meeting design specifications.

5.3 High-Speed Gear Repair

For carburized gear wear on tooth surfaces, پوشش‌دهی لیزری overcomes the welding difficulties caused by residual carburized layers. The repaired tooth surfaces have a contact fatigue life 15% longer than the original carburized layers, offering a reliable solution for high-performance gear remanufacturing.

5.4 Exhaust Gas Expander Wheel Repair

As a critical component in a refinery waste heat power generation unit, the expander wheel can be repaired using پوشش‌دهی لیزری through a layer-by-layer casting repair approach. A gradient material design from the bottom layer to the surface ensures reliable performance under high-temperature and complex operating conditions.

6. Conclusion and Outlook

پوشش‌دهی لیزری technology, with its unique process advantages, is showing broad application potential in the repair of high-value, high-precision engineering components. This technology not only helps recover substantial economic losses but also plays a crucial role in optimizing resource allocation, conserving rare materials, and reducing energy consumption.

As a green remanufacturing technology, پوشش‌دهی لیزری is environmentally friendly and aligns with sustainable development principles. As equipment manufacturing industries continue to raise demands for component lifespan and reliability, پوشش‌دهی لیزری will play an increasingly vital role in the precision repair sector, providing strong technical support for the lifecycle management of industrial equipment.