1) High-speed drilling with micro-porous
微孔高速钻削
2) Micro-hole drilling
微孔钻削
1.
Because of the eCAN restrict of computer, the conventional system of monitoring and controling of the micro-hole drilling’s data-disposing rate is low , and it’s hardware resource is not enough, meanwhile , it’s instruction’s collection is too simple .
本文建立了基于数字信号处理器TMS320F2812的微孔钻削在线监控系统。
2.
The technique of the on-line monitoring and control in micro-hole drilling is developing.
本文针对微孔钻削在线监测方面提出了基于DSP的微孔钻削在线监控方法,对监控系统进行了研发,并为系统提供了微孔钻削在线监测数学模型的建立方法。
3) Micro-drilling
微孔钻削
1.
Real-time Monitoring System for Micro-drilling Based on Virtual Instrument Technology
基于虚拟仪器技术的微孔钻削实时监控系统
2.
Aim at the quality problems in PCB drilling process,the design of micro-drill and the micro-drilling process were analyzed.
针对印刷电路板(PCB)钻孔加工的质量问题,对微钻头的设计和微孔钻削工艺进行了分析。
4) high speed drilling
高速钻削
5) micro-drilling
微细孔钻削
1.
This paper introduces the characteristics of micro-drilling and demands for the structure of the ultra-high speed motorized spindle.
介绍了超高速微细孔钻削的主要特点以及对钻削主轴组件的基本要求。
2.
High-speed Motorized Spindle Design For Micro-drilling;
本文重点介绍这种超高速微细孔钻削电主轴设计的关键技术,包括气体静压轴承的设计、内装电机的冷却与散热等。
补充资料:无孔不钻
1.比喻善于钻营。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条