Fiber laser cutting machine 1825-S
laserplasmafor metal

Fiber laser cutting machine - 1825-S - ZINSER GmbH - laser / plasma / for metal
Fiber laser cutting machine - 1825-S - ZINSER GmbH - laser / plasma / for metal
Fiber laser cutting machine - 1825-S - ZINSER GmbH - laser / plasma / for metal - image - 2
Fiber laser cutting machine - 1825-S - ZINSER GmbH - laser / plasma / for metal - image - 3
Fiber laser cutting machine - 1825-S - ZINSER GmbH - laser / plasma / for metal - image - 4
Fiber laser cutting machine - 1825-S - ZINSER GmbH - laser / plasma / for metal - image - 5
Fiber laser cutting machine - 1825-S - ZINSER GmbH - laser / plasma / for metal - image - 6
Add to favorites
Compare this product
 

Characteristics

Technology
fiber laser, laser, plasma
Material
for metal, for fiberglass
Product handled
sheet metal
Configuration
floor track
Other characteristics
precision, linear, economical
X travel

25 mm
(0.98 in)

Y travel

35 mm
(1.38 in)

Cutting speed

18,000 mm/min
(11.811 in/s)

Description

The ZINSER 1825-S Fiber Laser cutting system is a high-quality guiding machine for laser and plasma cutting and for combined cutting tasks. The portal machine unites the required speed and precision for laser and plasma cutting with the robustness and longevity of an industrial machine. ZINSER 1825-S Fiber Laser has a double-sided AC-drive and linear resp. ball rail guides for the X-axes (25 mm) and Y-axes (35 mm). Laser cutting is the method of choice for very thin materials, where especially high cut quality and/or small holes and contours compared to the material thickness are more important than low cutting cost. A laser ray is focus through a hole in the fuse onto the to-be-cut material and heats up the latter up to its melting temperature. Similar to plasma cutting, a gas jet subsequently blows the melted material out of the kerf. The ZINSER 1825-S Fiber Laser cutting system has been developed especially for laser cutting. All components of the machine are tailored to the specific requirements of this cutting process. -Suitable for material thicknesses between 0,1 mm and 25 mm (typically 1 mm to 20 mm) -Very economical entry into the world of laser cutting -Profitable even with only temporary capacity utilisation -Low operating costs -Minimum cutting costs in laser quality -Lower operating and maintenance costs compared to plasma -No adjustments and no maintenance of mirrors needed -No need for gas purging of the beam path -Higher efficiency
*Prices are pre-tax. They exclude delivery charges and customs duties and do not include additional charges for installation or activation options. Prices are indicative only and may vary by country, with changes to the cost of raw materials and exchange rates.