For deep laser metal engraving, RL-JPT fiber laser is the first choice!
Laser metal deep engraving is a specialized laser processing application that involves irradiating the surface of metal workpieces with high-power density laser beams. This process causes the material to melt or vaporize almost instantly, resulting in precise and fine engraving. One of the main advantages of laser metal deep engraving over traditional metal corrosion methods is that it produces no pollution, offers higher precision, and provides greater flexibility. These benefits make laser deep engraving a highly desirable solution in the metal processing industry.Through bit by bit efforts, let laser marker Our market share is getting higher and higher, and the return on investment is also rising steadily. http://laserscheme.com/
RL-JPT pulse fiber lasers are an advanced solution in the field of metal deep engraving, offering a range of power options that can be tailored to the specific material and processing efficiency needs of a project. This flexibility allows manufacturers to choose the appropriate laser for different materials and achieve the desired results in terms of engraving depth and quality.
Among the common materials used in laser deep engraving are aluminum, brass, and stainless steel. Each of these metals presents unique challenges and advantages due to their distinct physical and chemical properties.
Aluminum, known for its light weight and excellent thermal and electrical conductivity, is widely used across industries such as automotive, aerospace, and electronics. Aluminum¨s high reflectivity and oxidation resistance are additional factors that contribute to its popularity. One key reason laser deep engraving works so efficiently on aluminum is its low melting point and high thermal conductivity. Under laser irradiation, aluminum dissipates heat quickly, minimizing the heat-affected zone (HAZ) and enhancing the precision and accuracy of the engraving process.
Stainless steel is another widely used material, particularly valued for its exceptional corrosion resistance and strength. However, due to its high melting point and hardness, laser deep engraving on stainless steel requires greater power and a longer processing time to achieve the desired depth. This makes stainless steel engraving more challenging, but the durability and resilience of the material ensure that the end result is worth the effort. High-power lasers, such as those provided by RL-JPT, are essential to effectively engrave stainless steel.
Brass, appreciated for its excellent wear resistance, ductility, and malleability, is another common material for deep engraving. However, the high reflectivity of brass ! it reflects nearly 97% of infrared light ! and its high melting point can significantly extend the processing time. Achieving optimal results with brass requires precise laser settings and high-quality lasers that can overcome its reflective properties.
RL-JPT fiber lasers are designed with these challenges in mind, offering adjustable power, pulse width, and frequency to ensure that the laser can be tailored to the specific requirements of each material. This adaptability is crucial for achieving the best possible performance and engraving results, regardless of the material being used.
Laser metal deep engraving has broad applications in various industries, from creating intricate designs on jewelry to engraving serial numbers on machine parts. Its advantages over traditional methods, such as pollution-free processing and high precision, make it a versatile and indispensable technology in metal processing. Selecting the right laser and adjusting its parameters according to the material¨s characteristics is vital for achieving optimal processing efficiency and the highest-quality results.
In conclusion, RL-JPT fiber lasers are ideal for laser deep engraving, offering precision, efficiency, and customization across various metals. The technology¨s ability to adapt to different materials and processing conditions makes it a leader in the field of metal engraving, contributing to its growing adoption across industries.