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Laser Marking of Plastics

Color Change, Forming or Engraving

 Laser marking of polymers on carbonization or foaming processes by laser beam absorption.

 

 
テキスト For low-alloyed steels in particular, oxygen is typically used as cutting gas. At the moment the maximal  processable counter thickness for laser flame cutting of steel is approximately at 25 mm.
 

Carbonization and Foaming

1Plastics_Carbonization.jpg テキスト Mild steel is the most frequently cut material in the industry. Thus e.g. gears, blinds, coverings or chain links of mild steel are cut using lasers.
 

Photochemical Processes

2Plastics_Photochemi.jpg テキスト In combination with fiber optic (solid-state laser) or mirror systems (CO2 lasers) also complex, three-dimensional mild steel components can be cut such as hydroformed parts for the automotive industry.
 

Plastics with Additives

3Plastics_with_Additives.jpg

テキスト In combination with fiber optic (solid-state laser) or mirror systems (CO2 lasers) also complex, three-dimensional mild steel components can be cut such as hydroformed parts for the automotive industry.

 

Data sheet Merck Iriotec box Leporello Floppy.jpg pdf (1.8 MB)
 

            Features at a Grance

・ No pre- and post-processi

・ Durable, high-contrast markings

・ Intact surfaces (color change)

・ Fast compared to mechanical marking techniques

・ Very small line widths realizable

・ Flexible, individualized marking content

・ Suitable for areas difficult to access

 

 

Product recommendation

For this application we recommend the laser markers: PowerLine E Air SeriesPowerLine E Series, PowerLine F20/F30