Linkedin Youku WeChat Weibo

Sorry, your browser is not compatible with some of the content on this website. Please update to a newer browser to view this website.

redPOWER Small Banner

Anneal Marking on Cast Iron

redENERGY G4 100W EP-Z

Anneal marks are created on cast iron by heating the work piece with a laser beam to form an oxide layer at the surface, which creates a colour change to the surface of the work piece. A common use for marking cast iron is to produce QR codes or data matrices for traceability.

LaserPower DemandBeam ØScanner/LensEnergy
 redENERGY G4 100W EP-Z 40W 2.5 – 3.5 7.5mm >8mm/163mm F-Theta Depends on material

Anneal marks are created on cast iron by heating the work piece with a laser beam to form an oxide layer at the surface, which creates a colour change to the surface of the work piece. A common use for marking cast iron is to produce QR codes or data matrices for traceability.

In the anneal marking process the material surface is not melted so no material is removed and the mark is achieved through the solid state growth of an oxidised layer.

The challenge is to produce a permanent mark which can be easily read on various surfaces and that the marking process is repeatable and reliable. SPI’s G4 40W HS-H Fiber Laser can produce a very high quality black mark. By creating a white background behind the area to be marked gives the anneal mark greater contrast and visibility, while also increasing the angles the mark can be observed from.

The HS-H type laser is mainly used for applications which require fast processing of large areas. This is because the higher M² value of the HS-H type laser produces a broader and uniform energy distribution and therefore does not have a hot-spot like most single mode lasers.

To download this Applications Postcard as a PDF click here!

Share article on...

注册更新

If you enjoyed reading this article, why not register for future articles?

arrow
CONTACT ME CONTACT ME