摘要
利用改进的脉冲Nd:YAG激光器,对激光冲击打孔加工无锥度直孔进行了实验研究。在优化激光脉冲峰值功率和脉冲能量、辅助气压参数的基础上,通过比较实验证明,能量递增组合脉冲是实现无锥度直孔加工的有效方式,增加脉冲组合中脉冲的个数可加工出负锥度的孔;激光焦点位置是影响孔锥度的重要因素,焦点位于材料表面上方1.1~1.7 mm有利于减小锥度。在厚度为1.5,3.0 mm的镍基高温合金材料上,获得孔径分别为480,510μm的直孔,重复打孔孔径误差约30μm,孔锥度〈1%。给出了可实用于激光冲击打孔的直孔加工方法和脉冲激光器,并可用于其他材料的加工。
Experiments of laser percussion drilling are carried out on nickel-based superalloy using a modified pulsed Nd:YAG laser.Peak power,pulse energy and assist gas pressure are optimized experimentally.Experimental results demonstrate that a pulse combination with increasing pulse energy is an effective method to produce non-tapered holes.Even negative taper holes can be produced through increasing the number of pulses in the pulse combination.Focal position is an important factor that affects the taper of holes,and 1.1~1.7 mm above the surface of the sample helps reducing the taper of holes.Non-tapered holes with diameter of 480 and 510 μm are drilled on nickel-based superalloy with thickness of 1.5 and 3.0 mm.Variation of hole diameter is about 30 μm,and hole taper is less than 1%.A feasible method of producing parallel holes and an applied Nd:YAG laser have been presented for laser percussion drilling,may also be used on other materials.
出处
《中国激光》
EI
CAS
CSCD
北大核心
2011年第10期54-60,共7页
Chinese Journal of Lasers
基金
国家自然科学基金(61040065)
北京市自然科学基金(4112005)资助课题
