In order to push the quality of fibre laser cutting to new levels, AMADA has released two advanced technologies: Silky Cut Fibre and Gas Mixer. Available for the company’s ENSIS and LCG (4 kW+) range of fibre laser cutting machines, these breakthrough innovations ensure superior quality in comparison with standard fibre lasers, allowing customers to enter new markets and win new orders.
While the industry’s ongoing demand for fibre laser technology has been driven by high process speeds, it is well documented that quality dips below that of CO2 lasers when working on thicker sheets with certain materials. With this in mind, AMADA’s Silky Cut has been developed to offer CO2-quality stainless steel processing up to 15mm thick using fibre laser technology.
Unique to AMADA, Silky Cut is a combination of the company’s own fibre laser source, new cutting head design and optimisation of the beam path optics, as well as advanced understanding of gas-flow dynamics and beam-shaping techniques. Customers can now process mid-to-thick stainless steel with the confidence that it will meet the highest standards. In addition, users processing thicker materials can now enjoy the reduction in energy consumption associated with fibre laser cutting, which is typically 70% less than an equivalent CO2 laser. Sectors set to benefit include, oil and gas applications and food industry equipment.
Also unique to AMADA is Gas Mixer, which is designed for CO2-quality processing of aluminium using a fibre laser technology.
Although near dross-free aluminium fibre laser profiling can be achieved using oxygen as the cutting gas, due to the inability to weld after oxygen cutting, this solution is rarely applicable. As a result, most opt for nitrogen when cutting aluminium, which is fast but exhibits quality that is less than satisfactory in some instances.
Using AMADA’s Gas Mixer system, gases are mixed to a proven ratio that allows the perfect combination of improved cut quality and post-cutting weldability. Subsequently, users have the potential to eliminate secondary operations and reduce welding defects in comparison with oxygen-cut parts. Manufacturers working in the automotive, aerospace and general subcontract markets will be among those to benefit most.