对各种加工方法进行比较可知,在机械密封端面上加工微孔,激光表面处理技术是惟一有效的加工方法。
Compared with any other processing methods, laser technology is a unique way to produce micro-pores on the seal face.
介绍了飞秒激光加工光电倍增管电极,修复光刻掩膜,诱导白炽灯丝阵列微孔等一些工业应用。
Some industrial applications including micromachining dynodes of photomultipliers, repairing photomask of lithography, fabricating array micro-holes in incandescent filaments, etc. are introduced.
足够的功率密度、用适当的焦距并确定最好象面、再聚焦方法等是激光深微孔加工的重要因素。
The important factors for laser depth-microdrilling are the sufficient power density, suitable focal length, determination of the best image plane and refocusing etc.
双光路系统不仅 保持了激光加工微孔的优势,而且针对不同的加工精细度和成本要求,可 灵活选择加工方式。
A double light path system maintains the advantage that the laser processes micropores, and can aim at different processing finenesses and cost requirements to flexibly select processing modes.
为了提高纳秒短脉冲激光微孔制备的加工效率,使用了一种新颖的双脉冲方法。
In order to improve short pulse laser drilling efficiency double-pulse technique is reported in this paper.
为了提高纳秒短脉冲激光微孔制备的加工效率,使用了一种新颖的双脉冲方法。
In order to improve short pulse laser drilling efficiency double-pulse technique is reported in this paper.
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