本文结合激光微细加工与并联机构两个领域,提出了用于激光微细加工系统的三自由度并联平台课题。
This article combines two fields which are laser minuteness process and parallel mechanism to put forward 3-dof parallel platform used in the laser minuteness process system.
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。
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.
介绍了激光板与管无模成形、激光表面强化处理、激光微细加工和激光直接沉积成形等四种激光制造前沿研究技术。
Four promising laser assisted manufacturing approaches are introduced, including die-less laser forming, laser shock processing, laser micro-machining, and laser based direct metal deposition.
讨论了利用激光微细加工技术,结合软件的智能化控制,按照初始设计好的图形,在金属材料表面或光学玻璃上实现精细雕刻的一种技术。
This paper discuss a kind of technology which can realize fine incise on metal and optical glass according to known figure, with program intelligent controlling.
国内在激光微细加工区域温度均匀化研究方面少见报道,国外也对此领域研究不多,所以很有必要研究激光微细加工微小区域的温度分布均匀化。
Temperature uniformity in the laser exposed area has been seldom reported. It's a significant work to research how to uniform the temperature distribution in the processed area.
本文叙述了准分子激光应用在微细机械加工中的先进技术以及研究的前景。
This paper explores the advanced technology of the Excimer Lase applied in minute machining and the researching prospect.
介绍了飞秒激光双光子微细加工技术的原理和应用的现状。
The principle and current application of the femtosecond two-photon microfabrication are introduced.
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。
The invention discloses a method for accurately controlling exposure time by utilizing pulse laser, which is applied to the technical field of micromachining.
在此基础上采用飞秒激光双光子微细加工技术制备了典型的微生物器件——微井阵列、微柱阵列和光子晶体生物微型支架。
Using two-photon femtosecond laser micro-processing technology fabricates a typical microbial devices such as micro-well array, micro-pole-array, and photonic crystal micro-biological scaffold.
在此基础上采用飞秒激光双光子微细加工技术制备了典型的微生物器件——微井阵列、微柱阵列和光子晶体生物微型支架。
Using two-photon femtosecond laser micro-processing technology fabricates a typical microbial devices such as micro-well array, micro-pole-array, and photonic crystal micro-biological scaffold.
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