Metal marking and engraving

High-quality deep engraving on a large steel plate using a fiber laser. Engraving is performed through multiple iterative layers.

High contrast marking of a stainless steel part by means of a fiber laser generating a selective oxidation layer.

Depth-controlled surface engraving of a carbide tool by fiber laser with pulse duration adjustment, which avoids heating and crack generation.

High quality deep engraving by iterative layering, using a fiber laser to obtain an anti-reflective oxidation effect.

High quality deep engraving using fiber laser. Engraving is performed through multiple iterative layers.

Marking of stainless steel by fiber laser with pulse duration control, which allows to control the thickness of the diffractive oxide layer generated and to visualize different shades of gray.

High contrast marking of stainless steel by fiber laser by generation of a selective oxidation layer.

High quality and contrast marking of stainless steel by fiber laser through the generation of a selective oxidation layer.

Marking of stainless steel by fiber laser with pulse duration control, which allows to control the thickness of the diffractive oxide layer generated and to visualize different shades of gray.

High contrast marking of the coating layer of a nickel-plated brass body using fiber lasers with pulse duration adjustment, which allows to generate controlled depth erosion and to visualize the white color.

Chrome-plated part engraved with a fiber laser that guarantees the partial removal of the chrome layer without reaching the base material, in this case Zamak, avoiding possible corrosion due to use in humid environments.

High contrast marking of the coating layer of a brass body by fiber laser with pulse duration adjustment, which allows to control the thickness of the generated diffractive oxide layer and to visualize the black color.

High contrast marking of the coating layer of a painted brass body by fiber laser with pulse duration adjustment, which allows to control the generation of diffractive micro-bubbles generating a highly readable contrast.

High contrast marking of the coating layer of a painted brass body by fiber laser with pulse duration adjustment, which allows to control the generated carbonization offering a highly legible contrast.

Coating pickling and marking of stainless steel by fiber laser with pulse duration control, which allows to control the thickness of the generated diffractive oxide layer and to visualize different colors.

Marking of stainless steel using a fiber laser with pulse duration control, which allows to control the thickness of the generated diffractive oxide layer and to visualize different colors.

Marking of stainless steel using a fiber laser with pulse duration control, which allows to control the thickness of the generated diffractive oxide layer and to visualize different colors.

High-contrast marking due to the surface chemical transformation of the anodized coating employing a fiber laser with pulse duration control.

High-contrast marking due to the surface chemical transformation of the anodized coating employing a fiber laser with pulse duration control.

High-contrast marking due to the surface chemical transformation of the anodized coating employing a fiber laser with pulse duration control.

Obtaining different shades in anodized aluminum due to surface chemical transformation using a fiber laser with pulse duration control.