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.

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实验同时分析了加工参数如加工电压、电解液种类和浓度、加工材料等对冷却孔成形的影响。

The effects of such machining parameters as voltage, type and concentration of electrochemical fluid, materials etc on the cooling hole formation were also analyzed.

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加工过程中，通过数据采集卡检测电极间的加工电压变化或者回路中的电流变化，自适应控制电极间的端面间隙。

The gap between the electrodes can be self-adaptive controlled by detecting the voltage or the current changes during the machining duration.

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