Laser Marking UID, Data Matrix and Barcodes
- Serial Numbers
- Bar Codes
- 2D Data Matrix Codes
- Logos
- Scales and Required Data
As traceability becomes a requirement in many industries, laser machines are increasingly proving to be the best solution for direct part marking, labels and tags.
Our laser offers: Best in Class Technology – Best in Class Performance
Get "Straight A" readings on 2D Data Matrix Codes. Our unique calibration techniques allow raster matching as the laser head moves side to side in either direction. The results are very apparent in small text and bar codes.
Laser marking of different metals using a laser is finding increased applications as the industry develops a better understanding of how the laser engraving process works. Some metals – anodized aluminum for instance – have been marked with lasers for years. Products like serial tags, identification plates, and control panels are all excellent examples of how well the laser marking process works with anodized aluminum. Other metals, like stainless steel and titanium have traditionally not been marked with a laser; however with the advent of metal marking compounds, lasers can now easily mark these materials by producing a dark, high contrast mark that cannot be duplicated using other methods. When engraving with anodized aluminum, the laser bleaches the anodized coating and produces a very high contrast, permanent mark that neither damages the coating nor affects the structural integrity of the metal. There is no better way to permanently mark anodized aluminum control panels, serial tags, production parts, or any other anodized parts that require marking.
Painted materials can also be marked using a laser system. The laser can easily penetrate most paint coatings to expose the underlying material creating a high contrast mark. Marking painted surfaces is a great solution where adhesive labels or other marking methods will not work.
Get "Straight A" readings on 2D Data Matrix Codes. Our unique calibration techniques allow raster matching as the laser head moves side to side in either direction. The results are very apparent in small text and bar codes.
Laser marking of different metals using a laser is finding increased applications as the industry develops a better understanding of how the laser engraving process works. Some metals – anodized aluminum for instance – have been marked with lasers for years. Products like serial tags, identification plates, and control panels are all excellent examples of how well the laser marking process works with anodized aluminum. Other metals, like stainless steel and titanium have traditionally not been marked with a laser; however with the advent of metal marking compounds, lasers can now easily mark these materials by producing a dark, high contrast mark that cannot be duplicated using other methods. When engraving with anodized aluminum, the laser bleaches the anodized coating and produces a very high contrast, permanent mark that neither damages the coating nor affects the structural integrity of the metal. There is no better way to permanently mark anodized aluminum control panels, serial tags, production parts, or any other anodized parts that require marking.
Painted materials can also be marked using a laser system. The laser can easily penetrate most paint coatings to expose the underlying material creating a high contrast mark. Marking painted surfaces is a great solution where adhesive labels or other marking methods will not work.