1·Mechanism, characteristic and application of excimer laser micromachining are introduced.
介绍了准分子激光微加工的机理、特点和应用。
2·The cutting edges may be formed by torsioning, cutting, grinding, machining, laser micromachining, or grit blasting.
刃口可通过扭转、切割、磨削、机械加工、激光显微机 械加工或喷钢砂处理形成。
3·The femtosecond laser micromachining technique has extensive application prospects in the field of photonic devices.
指出飞秒激光微加工在光子器件领域的有很好的应用前景。
4·Femtosecond laser micromachining has many potential applications due to its advantages, such as limited heat-affected zone and more precision machining.
飞秒激光微加工具有热影响区小和加工精度高的特点,在激光微加工领域具有潜在的应用价值。
5·Methods To construct direct-write laser micromachining system, set micromachining program, analyse the factor of micromachining, and use the microfluidic chip to detect alpha-fetoprotein.
方法构建激光加工装置,设置激光微加工程序,并时激光加工过程中一些影响因素进行分析,最后将加工后的芯片用于免疫分析。
6·Combined with the theoretical simulation, the parameter optimization of fs laser micromachining stainless steel and nickel was conducted for fabrication and application of metallic microcomponents.
结合理论模拟,开展了飞秒激光微细加工不锈钢、镍等金属材料的工艺优化与微型零件制备及应用的实验研究。
7·Objective To establish direct-write laser method for micromachining immunoassay microfluidic chip.
目的建立微流控芯片的CO_2激光直接微加工方法。
8·The invention discloses a method for accurately controlling exposure time by utilizing pulse laser, which is applied to the technical field of micromachining.
本发明是一种利用脉冲激光精确控制曝光时间的方法,用于微细加工技术领域。