UV Laser Markers by FOBA Laser Marking + Engravin | RFQ Sourcing Details

Laser Marking Systems for Direct Part Marking UV Laser Markers Precise. Rich in Contrast. Sustainable. Ultraviolet laser markers with Nd:YVO4 technology are the ideal solution for high-precision laser marking of sensitive materials.

Thanks to their ultraviolet wavelength of 355 nm, they enable , high-contrast marking that is gentle on the material - without any thermal stress. Are you interested in having your product tested by our application experts? Then get in touch with us! Get advice now!

to top Content UV Laser Marking Advantages Application Examples Comparison Worth Knowing . Thermal Processes How does UV Laser Marking work? UV Laser Marking is based on a high-precision process that is characterized by its particularly gentle effect on sensitive materials.

In contrast to conventional laser marking processes that work with heat, the UV laser uses a so-called photochemical reaction - also known as " cold marking ". Photochemical Reaction (UV Laser) UV Lasers with a wavelength of 355 nm directly excite the molecules on the surface of the material.

This changes the structure of the material without generating any significant heat. This "cold" marking ensures fine, high-contrast and permanent markings without damaging the material. Thermal Processes (e.g. CO2 or fiber lasers) The material is melted, vaporized or discolored by the effect of heat.

This can lead to melting marks, deformation or material weakening in heat-sensitive materials such as PVC, silicone or white polyamides. UV Lasers in Industry - Precision That Sets Standards UV Lasers with a wavelength of 355 nm are considered a high-end solution for industrial marking and micromachining .

They enable , gentle and high-precision processing that sets new quality standards in many industries. Experience the precision of UV Laser technology - . Get advice now! Why UV Lasers? The Advantages at a Glance 1.

Cold marking through photochemical reaction In contrast to CO2 or Fiber Lasers , which work with thermal energy, UV Lasers generate markings through a photochemical reaction.

This means: no melting, no deformation, no material damage - ideal for sensitive materials such as silicones, white polyamides, glass or medical plastics. 2.

Maximum precision for the finest structures Thanks to their short wavelength, UV Lasers enable extremely fine, high-contrast markings - even on the smallest surfaces. Whether Data. Matrix codes, serial numbers or logos: The markings are razor-sharp and permanently legible. 3.

Versatile in use UV Lasers are suitable for a wide range of materials: Plastics (also flame-retardant or without additives) Glass & ceramics Medical products Electronic components Packaging & labels 4.

Hygienic & biocompatible The virtually intact surface after marking makes UV lasers the preferred choice in medical technology . The markings can be sterilized, are abrasion-resistant and biocompatible - perfect for catheters, insulin pumps or surgical instruments. 5.

Process reliability & efficiency Integrated camera systems enable automatic component recognition, marking alignment and quality control. This reduces rejects and ensures maximum process reliability in series production. 6. Sustainability & economic efficiency UV Lasers work without consumables such as ink or labels.

They are energy-efficient, low-maintenance and reduce the ecological footprint - a real plus point for sustainable production processes. UV Laser Marking UV Laser Marking is ideal for the gentle and high-contrast marking of sensitive materials such as ceramics, flame-retardant or biocompatible plastics.

It is used wherever maximum precision is required - for example in automotive and aircraft construction, medical technology, electronics or extrusion processes.

Thanks to its short wavelength, UV technology enables permanent markings without thermal stress and meets the highest requirements for legibility, traceability and material integrity.

8 Show all images The FOBA V-Series - UV and Green Lasers for Modern Plastic Markings The new FOBA V-Series stands for compact design, flexible integration and excellent marking quality. Developed for industrial series production, it is perfect for marking plastics such as HDPE, PVC, PP and PA66.

V.0042-uv UV Laser Marker for high-contrast markings on highly sensitive products Learn more V.0102-gn Minimum heat impact, maximum marking performance: Green Marking Lasers for most challenging materials Learn more UV, Fiber or Green Laser?

The Big Comparison for Your Application Choosing the right laser marking system is crucial for the quality, efficiency and sustainability of your marking processes. Whether for metals , plastics or organic materials – each laser source has its own specific strengths.

Here you can find out which laser type is best suited to your material and your application. Ultraviolet Laser - Precision without heat Wavelength : 355 nm Technology : „ Cold marking “ by photochemical reaction Ideal for : Glass, sensitive plastics (e.g.

LDPE, HDPE, silicones), medical packaging, electronics UV lasers work with ultraviolet light and create markings through photochemical processes - without any thermal stress. This means that even the most sensitive surfaces remain intact.

They are ideal for applications where hygiene , biocompatibility and maximum precision are particularly important.

Advantages : No material deformation Highest contrast sharpness Ideal for micro-marking and traceability Particularly suitable for medical technology and the electronics industry Fiber Lasers - Fast, robust and versatile Wavelength : 1,060 - 1,070 nm Technology : Diode-pumped solid-state lasers Ideal for : Metals , hard plastics, engineering plastics Fiber lasers are the first choice for industrial metal marking.

They offer high marking speed, long service life and low operating costs. They are also suitable for certain plastics .

Advantages : Extremely durable and low maintenance High marking speed Ideal for serial numbers , UDI codes , logos Perfect for automotive , aviation and mechanical engineering Green laser – for particularly challenging plastics Wavelength: 532 nm Technology: pulsed Nd:YVO₄ laser (vanadate), diode-pumped Ideal for: plastics , coated metals , reflective materials, electronic components Green lasers are characterized by high absorption in materials that are difficult to process in the infrared range.

They operate with precision and enable high-contrast markings with minimal heat input. This makes them particularly suitable for sensitive and reflective surfaces.

Advantages: Excellent results on reflective materials such as copper High contrast for fine structures and small components Low heat input, suitable for thermally sensitive materials Precise marking even on complex geometries Product finder Looking for a marking solution?

Find out now which laser is right for your application. Let's go! Worth Knowing Our white papers, application notes, case studies and webinars offer comprehensive and detailed analyses of the latest technologies.

You will gain valuable insights into the benefits and challenges of laser marking, including practical application examples and success stories from the industry. Download White Papers, Application Notes & Case Studies Discover our white papers, application notes and case studies!

Would you like to gain deeper insights into current trends and proven laser marking processes? Our documents provide you with valuable information and practical examples to help you make informed decisions and optimize your strategies.

Laser marking of plastics Plastic processing by laser marking Mark Colored Plastics Discover now Records Webinars Discover our webinars! Are you ready to expand your knowledge and learn new skills? Our webinars offer you the perfect opportunity to do so! Immerse yourself in exciting topics and learn from our exp