Abstract:
It was found experimentally and theoretically that an increase in the pulse repetition frequency increased the crater depth in laser drilling and reduced the specific energy consumption. A comparison of the maximum depths of welds and craters obtained by drilling and of their dependences on the laser radiation parameters demonstrated that the mechanisms of the maximum penetration of a pulse-periodic CO2 laser beam into a metal were identical for drilling and welding. The screening influence of a plasma jet decreased as the crater depth increased and this led to a nonmonotonic variation in the rate of growth of a crater on increase in the number of pulses. It was found experimentally that the use of pulse-periodic CO2 lasers for cutting metals makes it possible to obtain high-quality cuts at low workpiece velocities of 1–3 mm/sec.