Discover the cutting-edge technology of HBS’s Laser Marking Machines, engineered to deliver exceptional performance and versatility in industrial marking applications. Our comprehensive range includes Fiber Laser Marking Machines, MOPA Laser Marking Machines, CO2 Laser Marking Machines, and UV Laser Marking Machines, each designed to cater to specific marking needs across diverse industries.
Types of Laser Marking Machines:
Fiber Laser Marking Machine: Ideal for high-speed marking on metals and some plastics, offering superior mark quality and durability.
MOPA Laser Marking Machine: Known for its ability to create high-contrast, detailed marks on stainless steel and other materials.
CO2 Laser Marking Machine: Perfect for non-metal materials like wood, glass, and certain plastics.
UV Laser Marking Machine: Delivers ultra-fine marks on sensitive materials without heat damage.
Key Advantages:
Precision Marking: Offers high-resolution marking with excellent edge definition.
Permanent Results: Marks are resistant to abrasion, solvents, and high temperatures.
Low Maintenance: The solid-state design ensures long lifespans with minimal maintenance requirements.
Energy Efficiency: Consumes less energy compared to traditional marking methods.
Environmentally Friendly: Produces no harmful emissions or waste products.
Unique Features:
Customizable Marking Area: Adaptable to various product sizes and marking requirements.
Intuitive Software: User-friendly interface for easy design creation and machine operation.
Stabile Performance: Robust construction for continuous operation in harsh industrial environments.
Applications:
Automotive Industry: Parts marking, VIN numbering, and logo engraving on metal components.
Electronics Manufacturing: Marking on PCBs, semiconductors, and sensitive electronic parts.
Jewelry Design: Engraving unique serial numbers and designs on gold, silver, and other metals.
Medical Device Manufacturing: Permanent marking of surgical instruments and implants.
Aerospace Industry: Part identification and traceability in high-stress environments.
