Component

Mark was realized with an e8-i52 integrated head installed on production line. Marked information: part number, manufacturing date and team/shift.

Marking operation was realized using i103l-g fiber laser marking system integrated into a 4 axis (X, Y, Z and rotary) custom marking station to obtain a high contrast permanent mark.

Mark was created using c173l-g tabletop fiber laser marking station.

Mark was obtained using an integrated dot-peen marking head. The 2D datamatrix code contains all the human-readable data shown to the right, enabling automated reading to respond to part traceability requirements.

Marking on big or heavy parts that are difficult to move is easily done using e8 range portable marking guns. As no compressed air is required, these marking systems become fully autonomous when equipped with optional cart and battery: System can easily be moved to perform marking operations.

Scribed mark was realized using integrated e8-i61s marking system, which has the advantage of having a very low noise level. Key parameters to high quality scribing operations are the adjustment of air pressure and proper clamping of part to be marked.

In the automotive industry, specifically in gearbox manufacturing, every component is marked to ensure quality control through part traceability. Not considering marketing value, the marking of corporate logo enables quick visual confirmation of manufacturing origin, thus reducing use of counterfeit parts.

In applications where mark is not applied directly on part, use of permanently marked nameplates is common. You can use the e8 i61s or e8 i113s.

Laser technology can be ideal to respond to high speed manufacturing applications. i103l-g laser marking system, which uses state-of-the-art fiber laser technology, is ideal for these types of marking applications on metals, and plastics also.

Electronic circuit boards are manufactured in high volume series and typically have very limited marking space. I103l-g fiber laser marking system was used to create 2D markings in a 3mm x 3mm area (could be as small as 1mm x 1mm).

Marking operation was realized using i103l-g, integrated into a 4 axis (X, Y, Z and rotary) custom marking station. The system is able to recognize the part placed in the marking area. Our customer requested a mark on the speaker circumference with shape recognition. Material is mainly butyl. 

Laser marking technology enables rapid marking of text, logos, drawings, barcodes and 2D codes. In this application, an initial laser pass is used to create a clear rectangular marking area to augment contrast of the 2D code marked in dark, easing automated reading.

2D codes, which capture a large quantity of information, can be marked on very small areas. The application below illustrates 2D marks used for traceability purposes on dental molds.

Surgical instruments, prosthesis and implants manufactured with specialized alloys are marked using dot-peen technology, enabling traceability in the medical sector.

Marking of human-readable text and corporate logo are now mainstream in the automotive industry where traceability requirements are very important, particularly for security components.