Our advanced laser markers create crisp, detailed marks—from serial numbers and barcodes to intricate logos and graphics. Even the smallest geometries and 1-point fonts are rendered with perfect clarity, supporting traceability and quality assurance across industries.
Laser marking delivers durable, abrasion-resistant results that withstand heat, chemicals, and wear. Whether for automotive parts, medical devices, or industrial tools, your markings remain legible and secure for the lifetime of the product.
From metals and plastics to wood, textiles, and glass, our systems offer flexible marking options. Fiber lasers excel at metal and plastic marking, while CO₂ lasers are ideal for organic materials—enabling you to meet diverse production needs with a single, integrated solution.
Our laser marking machines are designed for easy integration into your production line, with digital interfaces and automation-ready controls. Mark single items, small batches, or automate high-volume marking with dynamic data—all with minimal setup and maximum efficiency.
Laser marking is a non-contact, consumable-free process, reducing operational costs and environmental impact. With virtually maintenance-free operation and long service life, you benefit from the lowest cost per mark and reliable uptime.
We offer modular, customizable systems tailored to your workflow, part sizes, and marking requirements. Whether you need a standalone workstation or an inline solution, our experts will help you choose and configure the perfect machine for your needs.
Permanent part identification, traceability, and safety compliance
Secure, biocompatible marking of instruments and implants
High-contrast marking of PCBs, components, and connectors
Fine engraving and decorative personalization for enhanced value and unique customer appeal.
Fast, flexible marking of gifts and branded items for effective marketing and personalization.
Robust, heat-resistant part marking for regulatory compliance in demanding environments.
Laser marking is the process of using a laser beam to mark or engrave on various surfaces.
Laser marking is capable of engraving most metals. Lasers can also mark plastics, ceramics, glass, and silicon. Composites, graphite, rubber, and LEDs may be marked in black or any other colour, depending on the material. Laser marking is also used in inscribing precious gems such as rubies, sapphires and diamonds.
Depending on the application, there are several laser marking processes, as follows:
a. Laser Marking by Annealing
b. Laser Engraving
c. Carbonising
d. Foaming
e. Removing
f. Staining
There are many advantages as compared to other marking techniques, such as:
a. Greater durability
b. Broader versatility
c. Faster operations
d. High precision and accuracy
Laser marks are highly durable and resistant to wear, fading, and corrosion, making them suitable for applications that require long-lasting identification, even in harsh environments.
Yes, laser marking systems can be integrated into automated production lines and are capable of marking multiple components quickly, making them ideal for high-speed and large-volume manufacturing.
Laser marking machines generally require minimal maintenance due to their non-contact operation and lack of consumables, resulting in lower operating costs and less downtime compared to traditional marking methods.
Selecting the right laser marker depends on factors such as the material to be marked, desired mark quality, production speed, and integration needs. Consulting with experts or conducting sample tests can help determine the best solution for your requirements.
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