Abstrak

Pelapis laser technology is revolutionizing the steel industry by providing efficient solutions for surface strengthening, repair, and corrosion protection. Using high-energy laser beams, this process melts metal powders to form a metallurgical bond with the substrate, creating high-performance functional coatings. This article explores the application of kelongsong laser in mechanical component strengthening, equipment repair, and corrosion protection in the steel industry, as well as its future development trends.

I. Overview of Laser Cladding Technology

Pelapis laser is a surface modification technique in which metal powder is melted by a laser beam and forms a dense, metallurgically bonded cladding layer on the substrate. The process parameters, such as laser power, scanning speed, and powder feed rate, can be adjusted to produce coatings with superior wear resistance, corrosion resistance, and high-temperature endurance. The typical system for kelongsong laser includes a laser, optical system, powder feed system, motion control system, and cooling system. Common cladding materials include nickel-based alloys, iron-based alloys, cobalt-based alloys, and composite materials like tungsten carbide, which are selected based on the specific application requirements.

II. Key Applications of Laser Cladding in the Steel Industry

1. Mechanical Component Strengthening

Pelapis laser is widely used in the steel industry to improve the wear and fatigue resistance of mechanical components such as transmission parts, gears, and bearings. For example, applying a Ni60+WC composite coating on a 42CrMo gear resulted in a 72% reduction in wear and extended its service life from 6 months to 18 months.

2. Equipment Corrosion Protection

The kelongsong laser process is highly effective for corrosion protection. By cladding components with stainless steel or nickel-based alloys, corrosion resistance is significantly improved, especially in acidic, humid, or high-temperature environments. A notable example includes cladding the inner wall of a desulfurization tower with a nickel-based alloy, reducing the corrosion rate from 1.20 mm/year to 0.03 mm/year, thus extending the component’s life.

3. Equipment Repair

Pelapis laser plays a crucial role in repairing critical components such as rolls, blast furnace tuyere nozzles, and continuous casting machine segments. For instance, laser cladding increased the hardness of hot-rolling support rolls. The repair cost was only 30% of the cost of a new roll, with a service life reaching 85%-95% of the original part’s life.

III. Common Problems and Solutions in Laser Cladding Applications

Despite its many advantages, kelongsong laser can encounter problems like cladding layer delamination, cracking, uneven thickness, and substandard hardness. These issues typically arise from insufficient substrate pretreatment, mismatched process parameters, and improper cooling rate control. Solutions to these problems include enhanced surface cleaning, optimization of laser power and scanning speed, selection of compatible powder materials, and implementation of slow cooling measures to minimize thermal stress.

IV. Integration of Laser Cladding with Robotics and 3D Scanning

To enhance the repair of complex workpieces, kelongsong laser technology is increasingly integrated with robotics and 3D scanning. By using 3D scanning to create a model of the workpiece and feeding this data into a robotic control system, high-precision, automated repairs can be achieved. This integration significantly improves the quality and efficiency of the cladding process, especially for on-site repairs.

V. Development Trends in Laser Cladding Technology

Sebagai kelongsong laser technology continues to advance, several trends are emerging:

Functionally Gradient Materials: These materials, which gradually change properties across the coating, will improve the performance of kelongsong laser coatings.

Multi-Laser Head Collaboration: The use of multiple laser heads will enable faster and more uniform cladding.

Real-Time Monitoring and Closed-Loop Control Systems: These technologies will enhance process stability and coating quality.

In the steel industry, kelongsong laser is transitioning from being a single-purpose repair method to an integrated approach that combines strengthening, corrosion protection, and remanufacturing. This shift is driving high-end steel production and supporting green manufacturing practices.

Kesimpulan

Pelapis laser technology, with its ability to form strong metallurgical bonds, improve coating quality, and reduce maintenance costs, has become indispensable in the steel industry. It offers significant advantages, such as extending equipment life, reducing repair costs, and promoting sustainable practices. As the technology continues to evolve, kelongsong laser will play an even more critical role in industrial remanufacturing, offering enhanced efficiency and performance in the steel industry.