题开展了微细电解加工技术的试验研究工作。
结果表明,减小脉冲宽度,降低加工电压,可以提高微细电解加工的精度。
The experimental results show that decreasing pulse duration and voltage can enhance the localization and improve electrochemical micro-machining accuracy.
开展了微细电化学加工技术的试验研究工作,内容包括微细电铸和微细电解加工。
This paper is focused on developing micro electrochemical fabrication processes, including micro electroforming and micro electrochemical machining.
设计和制作了阴极和夹具,在DJK3150数控电解加工机床上,进行了微细电解加工的实验。
Design and fabricate the cathode tool and the anode clamping tool. Carry the experimentation of ECM by using the DJK3150 numerical controlling ECM machine tool.
微细电解加工时,微小加工间隙内的电解产物难以移除,会降低加工效率、影响加工稳定性和质量。
The electrolytic products are hard to be removed from the small machining gap in micro ECM(electrochemical machining) process, which decrease the machining efficiency, stability and quality.
微细电解加工时,微小加工间隙内的电解产物难以移除,会降低加工效率、影响加工稳定性和质量。
The electrolytic products are hard to be removed from machining gap in micro-ECM(electrochemical machining) process, which may lower machining speed or stop the machining process.
微细电解加工时,由于间隙微小,生成的电解产物因难以从加工区域中移除而降低了加工速度甚至中断加工。
The electrolytic products are hard to be removed from machining gap in micro-ECM (electrochemical machining) process, which may lower machining speed or stop the machining process.
微细电解加工时,由于间隙微小,生成的电解产物因难以从加工区域中移除而降低了加工速度甚至中断加工。
The electrolytic products are hard to be removed from the small machining gap in micro ECM(electrochemical machining) process, which decrease the machining efficiency, stability and quality.
针对微细电解加工的特点,阐述了底面间隙和侧面间隙之间的关系,并研究了它们对加工精度和定域性的影响。
The side gap and frontal gap between the cathode and anode were investigated, because they had significant influence upon the machining accuracy and localization of ECM.
基于可重构机床模块化的设计方法,设计了一套可进行微细电火花加工和微细电解加工的多功能微细电加工系统。
According to the method of modular design of reconfigurable machine tool, a multifunctional system for micro electro-discharge machining (EDM) and electrochemical micromachining (EMM) was designed.
从电解加工的特点出发,对影响微细阵列孔加工精度的因素进行了分析。
In this paper, according to the characteristics of electrochemical micromachining (EMM), the impact factors of micro-hole array machining precision are analyzed.
针对成型电极在微细加工中暴露出的缺点,提出了利用旋转微细电极像微铣刀一样进行微细电解铣削新工艺,加工出高精度型孔和悬臂梁等微结构。
The new process of electrochemical milling by rotating microelectrode like micro milling-(cutter) was proposed, and micro profiled hole and micro beam with high precision can be milled.
对微细电解铣削加工技术进行了深入研究。
Micro electrochemical milling is proposed as a new method of micro fabrication.
对微细电解铣削加工技术进行了深入研究。
Micro electrochemical milling is proposed as a new method of micro fabrication.
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