Contact Us Now For A Free Consultation

required
required
required
required
c683
required
 

Laser Marking, Engraving & Etching

Laser marking is a process of creating surface contrast using a range of physical effects, whereas laser engraving creates surface contrast by removing certain (typically .005 to .02") depth of material.

Physical effects, enabling laser marking, include:

  • Surface oxidation at laser induced elevated temperatures (marking stainless steel, titanium, wood, and most plastics.)
  • Ablation of low thermally conductive coating on substrate with high thermal conductivity (marking anodized aluminum, silicon nitride)
  • Thermally induces surface cracks (marking glass)
  • Change of surface roughness after local melting and re-solidification ( marking Al2O3/SiN ceramics, silicon, gold, platinum, some plastics)
  • Deposition of target material on a marking material (marking quartz wafer using ceramic target and inverted material transfer)

Applications:

LLTI can mark any shape or illustration, identification, and a variety of Automatic ID codes, including but not limited to Data Matrix, Dot Matrix, Code 3 of 9, Interleaved 2 of 5 and many others. We have character recognition systems and 2D readers to verify and grade marks to ANSI Standards. Area of applications include medical, semiconductor, MEMS, aerospace and automotive industries..

Materials:

LLTI specializes in marking anodized aluminum, stainless steel, titanium, gold, silver, nickel, silicon, wood, glass, acrylic, delrin, and a variety of polymers. We have the capability of putting a permanent laser mark on the inner surface of rings. We can mark any font or custom logo required by our customer.

Capabilities:

With an unlimited font selection, LLTI has capabilities of marking alphanumeric characters as small as 20-micron height with smallest stroke width from 6 microns and engraving down to 0.1" deep. Working area can be as big as 18X24". Our lasers have X/Y/Z stages and rotary indexers integrated to hold positional tolerances of +/- .001". Logos and text can be machined on flat, cylindrical, and curved surfaces.