Professional industrial coding and marking machines manufacturer
In modern manufacturing, the application of traceability codes has become increasingly important, especially in the production process of rolled steel beams. Laser marking has emerged as a popular method for permanently identifying and tracking rolled steel beams due to its speed, precision, and versatility. Desktop laser marking machines provide a cost-effective solution for small to medium-sized rolled steel beam operations. This article will explore the advantages of using laser marking machines for permanent traceability codes on rolled steel beams, the primary application scenarios for rolled steel beams, and the process of using a desktop laser marking machine to mark permanent traceability codes, including the use of air guns to enhance the marking process.
Advantages of Using Laser Marking Machines for Rolled Steel Beams
Permanent Identification: Laser markings have a high degree of durability and abrasion resistance, ensuring that the unique identifiers on rolled steel beams remain clear and legible throughout their entire lifecycle.
High-Speed Marking: Desktop laser marking machines can rapidly apply markings, minimizing downtime and maximizing production efficiency.
Precise Positioning: Computer-controlled laser beams allow for accurate positioning of markings, ensuring consistent placement on each beam.
Design Flexibility: Laser marking can create complex logos, barcodes, and alphanumeric codes, enabling detailed identification and traceability.
No Consumables: Unlike other marking methods, laser marking requires no ink, ribbons, or other consumables, thereby reducing ongoing costs and maintenance expenses.
Rolled steel beams are widely used in various industries, primarily including:
Construction Industry, automotive manufacturing, machinery manufacturing,aerospace, and furniture manufacturing etc.
Marking Process
Preparing for Laser Marking
Clean the Beam Surface: Ensure that the area to be marked is free of dirt, grease, or other contaminants to prevent interference with the interaction between the laser and the material.
Load the Beam: Securely place the beam in the working area of the laser marking machine, ensuring proper alignment and stability.
Design the Traceability Code: Use the software provided with the desktop laser marking machine to create the desired traceability code, ensuring that the content complies with specifications.
Set Laser Parameters: Adjust the laser power, speed, and focal length according to the material and thickness of the beam to optimize marking quality.
Executing the Laser Marking
Run the Marking Program: Use the machine's control interface to execute the marking program. The laser will precisely etch the design onto the surface of the beam.
Use Air Gun to Blow Away Debris: During the marking process, utilize an air gun to blow away any debris generated by the laser marking machine. This helps keep the marking area clean and ensures that the laser can effectively interact with the material, resulting in clear and legible markings.
Monitor the Process: Closely observe the marking process to ensure that the laser is functioning correctly and that the markings are being applied as intended.
Allow the Beam to Cool: After marking is complete, allow the beam to cool before further handling to avoid potential burns or damage to the markings.
Post-Markings Considerations
Inspect the Marking: Conduct a visual inspection of the laser marking to ensure it is clear, legible, correctly positioned, and complies with any applicable standards or requirements.
Clean the Marking Area: Use a soft cloth and a mild cleaner (if necessary) to remove any debris or residue left from the marking process.
Maintain Traceability Records: Keep detailed records of the marking process, including the unique identifier of the beam, the date of marking, and any relevant production information. This documentation is essential for maintaining traceability and quality control.
Conclusion
By utilizing a desktop fiber laser marking machine to apply traceability codes on rolled steel beams, combined with air gun cleaning techniques, manufacturers can significantly enhance production efficiency and product traceability. Following the outlined steps and requirements ensures the quality and consistency of the markings, providing robust support for quality control throughout the production process. The advantages of laser marking technology will lead to greater efficiency and reliability in the production and management of rolled steel beams.
Shenzhen TP-MARK Technology Co., Ltd. is a leading provider of industrial coding and marking solutions. With years of experience and a commitment to innovation, we offer cutting-edge technologies to meet the diverse needs of our clients across industries. Contact us today to learn more about our industrial coding and marking solutions or to discuss your specific requirements. We are here to help you take your business to the next level.
Visit our website at www.misjet.com or contact us on whatsapp +86 18124196093.