Abstract
Short-pulse laser processing of CFRP can reduce heat damage, but the efficiency is limited. In this paper, the efficiency of CFRP hole-cutting with multi-pass scanning strategy by nanosecond laser was investigated. The differences in material removal mechanisms at different scanning spacing and the effect of different scanning spacing on processing efficiency were investigated. The results show that the material is removed by the combined effect of laser ablation and mechanical erosion effect with different scanning spacing, and the appropriate scanning spacing and number of passes can effectively utilize the effect of mechanical erosion to improve processing efficiency. With a repetition frequency of 80 kHz (pulse energy is 141.25 μJ), the shortest cutting time is 73.3 s, and the optimal scanning spacing is 0.06 mm (focused spot diameter is 22 μm), which is 26.8 % more efficient compared to the scanning spacing of 0.08 mm and number of passes with 3; As laser repetition frequency increases, the optimal scanning spacing for processing efficiency increases and the optimal number of passes decreases.
Published Version
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