Energy source: Fiber lasers use long-life semiconductor lasers to efficiently convert electricity to light, and require no maintenance or environmentally harmful consumables. Coupling of energy: Fiber lasers are incredibly compact because they convert the diode light into usable laser beams in a fiber that is no thicker than a human hair.
Laser beam guidance: Flexible glass fibers are an elegant and perfect beam guidance system without the complex optical structure of older lasers.
The truly industrial laser: The two most important key components of a fiber laser: semiconductor diodes and glass fibers - are suitable for mass production with excellent process control and repeatability.
Edging/folding
Our servo-electronic Safan press brakes are the third generation of the original E-brake.
Pressing forces 35 tonnes – 60 tonnes
Bending lengths up to 3100 mm
Servo-electronic drive with simple roller system
Crowning not necessary
Bending rate up to 20 mm/sec.,
Bending cycle up to 30 % faster
Standard CNC controlled X and Y-axis, Z1-Z2 also
Large stroke: 300 mm
Material thickness from 0.3 mm to 2.5 mm
Font laser
Professional Labeling.
A logo, a name tag, a company or house name, billboards, engravings. Whether on flat, cylindrical or spherical surfaces. Up to 400 x 400mm surfaces. Everything is possible with us.
Areas up to 400 x 400 mm
Spherical surfaces
Engravings
on metals and plastics
Rolling
A new sheet metal profile in less than a month? ...in less than a week? ...in less than a day? ...in less than an hour? Yes!
With our CNC 4 rolling machine we can roll almost any geometry without additional tool costs, from a single piece through to large series.
Metal sheet length max. 1900 mm, from 0.3 mm sheet thickness.
Punching-nibbling
With our CNC turret punching machines we are able to punch metal sheet thicknesses from 0.3 mm to 2.5 mm, quickly and in most cases without additional tool costs.
The maximum part size is 2500 mm x 1700 mm.
Shearing
CNC controlled cutting to size is a matter of course for us.
Cutting dimensions accurate to +- 0.08mm.
Laser welding
Advantages of Laser welding
Precision – Laser welding offers exceptionally high precision, which is particularly important when it comes to fine metal work. This makes it possible to weld highly complex parts with tight tolerances, which is essential for many applications.
Low heat impact – The heat influence zone in laser welding is extremely small due to a very short pulse duration (typically 5-10 ms) and a relatively slow sequence of individual welding pulses (up to 10 Hz). This minimizes the risk of deformation and discoloration of the material.
High Speed – Laser welding is typically faster than traditional welding processes. This leads to increased production speed and more efficient use of working time and resources.
Versatility – Laser welding can be used to join different materials of different thicknesses together. This makes it a versatile solution for a wide range of applications in the metal industry and construction.
Reduced rework – A key advantage of laser welding is its ability to deliver high-precision and rapid welding results with minimal heat applied to the workpiece. This results in a significant reduction in rework costs as less time and resources are required for straightening, plastering and sanding. Compared to traditional welding methods, laser welding minimizes the need for time-consuming manual post-processing steps, which not only shortens production time but also reduces overall costs.
Low Material Loss – Due to the precise nature of laser welding, less material is wasted, resulting in cost savings and reducing environmental impact.
Inquire now!
Tell us briefly what you need and we will be happy to make you a non-binding offer: