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Scanner Welding

No Time Loss by Movement of Workpieces or Processing Heads

 
テキスト The cutting in two dimensions is a domain of the CO2 laser. Typical cutting speeds for mild steel are for example at 18m/min for 1 mm, 4.5 m/min for 3 mm and 1.5 m/min for 8 mm material strength. Basically, the cutting of metals with lasers happens through the local heating of the material above its melting point in the focal point of the focused laser. The resulting molten material is ejected by a gas flow oriented coaxially to the laser beam so that a kerf is formed.
 
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.
 

Scanner Welding of tube bundles for exhaust gas coolers

1Scanner_Weld_tube.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.

For this application we recommend: ROFIN FL Series
 

Scanner welding in automotive engineering

2Scanner_Weld_automotive.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.

For this application we recommend: Scanner Welding System SWS
 

Laser welding at housings

3Scanner_Weldhousings.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.

For this application we recommend: StarPulse, StarFiber, LFS-Series
 

Throttle Cable

4Scanner_throttle.jpg Scanner welding seams replace attachment screws.

For this application we recommend: StarPulseStarFiber