利用试验优化技术设计试验方案,采用激光图形雕刻加工的手段实现齿轮表面仿生非光滑形态,研究非光滑与光滑两种形态齿轮的耐磨损性能。
Using optimum design for experiment scheme, laser graphic texturing was adopted to form bionic non-smooth microstructure on the gear surface to study anti-wear capability of the gears.
通过监测系统软件设计,实现对采样数据、波形和图形进行实时屏幕显示,对表面疲劳裂纹扩展进行动态监视。
The sampled data, sampled waveform and graph can be real time displayed, so that a supervision for the status of surface fatigue crack growing can be accomplished.
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.
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.
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