Investigation on the Inert Gas-Assisted Laser Cutting Performances and Quality Using Supersonic Nozzles

Abstract: In the present work, three different supersonic nozzles were designed and manufactured to operate at various stagnation pressures during laser cutting. Several cutting experiments were performed on stainless steel samples of various thicknesses (2, 4, 6 mm) using a fiber laser of 3 kW with a head adapted to fit with both the proposed supersonic nozzles and a commercial reference conical nozzle. The flow through these nozzles was numerically modeled and compared with the Schlieren visualization measurements. Th… Show more

“…The gas shape formed at the nozzle outlet affects the cutting thickness and surface roughness. Therefore, the appropriate design of a nozzle is important for improving the cutting quality [12][13][14][15]. Since the gas flow depends on the nozzle diameter and distance between the nozzle and the cutting target, it becomes a variable in the cutting process [16,17].…”

Analysis of Laser Cutting Process for Different Diagonal Material Shapes

“…The gas shape formed at the nozzle outlet affects the cutting thickness and surface roughness. Therefore, the appropriate design of a nozzle is important for improving the cutting quality [12][13][14][15]. Since the gas flow depends on the nozzle diameter and distance between the nozzle and the cutting target, it becomes a variable in the cutting process [16,17].…”

Analysis of Laser Cutting Process for Different Diagonal Material Shapes

Modeling and analysis of the visualized gas-assisted laser cutting flow from both conical and supersonic nozzles

Numerical analysis of the gas-assisted laser cutting flow from various supersonic nozzles