Introduction: The Role of Laser Cladding in Steel Industry Innovation

In the development of the steel industry, key technological breakthroughs such as blast furnace steelmaking, continuous casting, and continuous rolling have all been driven by the core goal of “cost reduction and efficiency improvement.” Today, as metallurgical processes continue to mature, remanufacturing technologies—particularly پوشش‌دهی لیزری and surface enhancement techniques—are becoming essential tools for extending the life of core components and improving overall equipment performance. Through پوشش‌دهی لیزری repair and enhancement, companies can not only restore components to their original dimensions but also enhance their wear resistance, corrosion resistance, and high-temperature resistance, significantly reducing downtime and increasing production efficiency.

در حال حاضر, پوشش‌دهی لیزری and surface enhancement processes have been widely applied in steel production, including laser cladding/repair, laser surface quenching/enhancement, and laser surface alloying. Below, we will discuss the specific applications and effectiveness of پوشش‌دهی لیزری in typical components.

1. Laser Cladding of Side Guide Plates

Side guide plates are key guiding components in the production line of hot-rolled thick plates. These plates are often subject to intense wear, leading to a shortened service life. In some extreme working conditions, the life expectancy can be as short as 24 hours, resulting in issues like steel sticking and lump formation, which can affect production efficiency and strip quality. By using پوشش‌دهی لیزری to apply high-performance alloy materials to the surface of the side guide plate, wear resistance and service life can be significantly improved, effectively controlling production costs. This application demonstrates the crucial role of پوشش‌دهی لیزری in the repair of critical, wear-prone components.

2. Laser Cladding of Furnace Rolls

Furnace rolls operate in high-temperature, corrosive gas environments, where the roll surface is prone to steel sticking, slag buildup, oxidation, and wear. These issues significantly affect slab quality, particularly in the production of silicon steel and other soft steels. Applying پوشش‌دهی لیزری to the roll surface creates an alloy coating that is resistant to high temperatures, oxidation, and wear. This technique can effectively prevent surface defects, improve rolling quality, and enhance overall production line efficiency. This application highlights the technical advantages of پوشش‌دهی لیزری in high-temperature component protection.

3. Laser Repair and Quenching of Rolling Mill Frames

Rolling mill frames, as core structural components of hot rolling equipment, are prone to gaps due to long-term corrosion and vibration, affecting plate shape control accuracy. By using پوشش‌دهی لیزری to apply an alloy layer to the frame surface, the original shape can be accurately restored, preventing deformation, and enhancing the wear resistance of mounting surfaces. Additionally, applying laser quenching technology to strengthen the lining plates can effectively improve surface hardness and wear resistance. The successful application of پوشش‌دهی لیزری in such structural components demonstrates its feasibility in heavy equipment repair.

4. Laser Remanufacturing of Flat Head Sleeves

The flat head sleeves in the main drive system of finishing mills are prone to wear due to frequent start-stop operations, leading to a high failure rate. Using پوشش‌دهی لیزری to remanufacture the flat head sleeves significantly enhances their wear resistance and service life. In practice, پوشش‌دهی لیزری treatment reduces wear considerably, resulting in a marked extension of service life, showcasing the importance of پوشش‌دهی لیزری in the repair of high-load drive components.

5. Laser Hardening of Long Shafts

Shaft components in drive systems are prone to failure due to friction and fatigue. Laser hardening of these shafts can significantly improve surface hardness and wear resistance without affecting the core material’s properties, extending their service life. This process, as a crucial complement to the پوشش‌دهی لیزری technology system, provides an economical and effective path for strengthening shaft components.

6. Laser Alloying of Rolls

Rolls, as key tools involved in the plastic forming of metals, are often subject to early failure due to surface peeling and cracking. Through پوشش‌دهی لیزری and alloying, an optimized alloy layer is formed on the surface of the rolls, enhancing their high-temperature resistance, corrosion resistance, and overall steel throughput. This پوشش‌دهی لیزری technology provides reliable support for roll lifespan extension and performance upgrades.

Conclusion: The Growing Role of Laser Cladding in Steel Industry Remanufacturing

In addition to the components mentioned above, پوشش‌دهی لیزری and surface enhancement technology are also widely applied in the repair and strengthening of various equipment, including rolling mill drive shafts, gear shafts, trolley wheels, scissors, hollow rollers, and gearbox housings. With its excellent overall performance, high material utilization, and process flexibility, پوشش‌دهی لیزری not only restores the dimensions of components but also enhances their performance, often surpassing the original quality. Currently, پوشش‌دهی لیزری has found extensive applications in steel companies, becoming a vital technological force driving the green remanufacturing and sustainable development of the industry.