"Laser marking" stands for marking or labeling of workpieces and materials with a laser beam. In this regard, different processes are distinguished, such as engraving, removing, staining, annealing and foaming. Depending on the material and the quality requirement, each of these procedures has its own advantages and disadvantages.
High-precision marking at constant quality
Thanks to the high precision of laser marking, even very delicate graphics, 1-point fonts and very small geometries will turn out clearly legible. At the same time, marking with the laser ensures constant high-quality results.
High marking speed
Laser marking is one of the fastest marking processes available in the market. This results in high productivity and cost benefits during manufacture. Depending on the material structure and size, different laser sources (e. g. fiber lasers) or laser machines (e. g. galvo lasers) can be used to further increase the speed.
Laser etching is permanent and at the same time resistant to abrasion, heat and acids. Depending on the laser parameter settings, certain materials can also be marked without damaging the surface.
Annealing markingAnnealing marking is a special type of laser etching for metals. The heat effect of the laser beam causes an oxidation process underneath the material surface, resulting in a color change on the metal surface.
StainingIn the staining method, the heat effect generated by the laser beam causes a chemical reaction in the material. Depending on the material composition, this will result in different color shades. For example, if a light plastic material is discolored during laser etching, soot particles may be produced that will result in a dark marking.
Laser engravingDuring laser engraving, the workpiece surface is melted and evaporated with the laser. Consequently, the laser beam removes the material. The thus produced impression in the surface is the engraving. More information on laser engraving...
RemovingDuring removing, the laser beam removes the top coats applied to the substrate. A contrast is produced as a result of the different colors of top coat and substrate. Common materials that are laser marked by way of removing of material include anodized aluminum, coated metals, foils and films, or laminates.
FoamingDuring foaming, the laser beam melts a material. During this process, gas bubbles are produced in the material, which reflect the light diffusely. The marking will thus turn out lighter than the areas that have not been etched. This type of laser marking is used mainly for dark plastics.
CarbonizingCarbonizing enables strong contrasts on bright surfaces. During the carbonizing process the laser heats up the surface of the material (minimum 100° C) and oxygen, hydrogen or a combination of both gases is emitted. What's left is a darkened area with higher carbon concentration.
Carbonizing can be used for polymers or bio-polymers such as wood or leather. Since carbonizing always leads to dark marks, the contrast on dark materials will be rather minimal.
How does laser engraving work?
We will show you how laser engraving works and which materials you can engrave with a laser.
Basics, technical terms and advantages and disadvantages of laser engraving. Learn how laser engraving machines work and how you benefit from it.
How does laser cutting work?
What is the difference between CO2 lasers, fiber lasers and vanadate lasers?
CO2, vanadate and fiber lasers
The laser machines available in the market mainly differ by the laser source they use. We mainly talk about CO2 lasers, fiber lasers and vanadate lasers.
How does a laser work?
Nowadays, lasers are used in many areas, for example in medicine or electrical industry. In material processing, laser machines are used to mark, engrave, weld and cut various materials. Simply put, laser beams consist of strongly focused light. Find out here how a laser works.