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.
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.
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.
在控制效果上实现了对脉冲电源主要参数的控制:采用专用的PWM波发生器UC3825A实现加工电压的自适应控制;
This project controlled the main parameters of inverting EDM pulse generator: used the special PWM generator UC3825A to realize voltage adaptive controlling;
结果表明:采用纳秒级脉冲电源能显著提高电解加工的定域性,优化纳秒级脉冲电源脉冲宽度和加工电压可进一步提高加工定域性。
The pulse duration and voltage have obviously affected the localization in ECM using nanosecond pulse power. With a rise in pulse duration and voltage, the localization gradually reduced.
采用微型计算机,使脉冲波形的转换、加工电压、加工电流、加工(?)性等均由计算机自动切换、减少了硬件,给出了软件框图。
Waveform, working voltage, average discharge current and polarity are automatically transformed by the microcomputer, and thus the hard - wares are decreased. The block diagram of softwares is given.
通过把一个像素的正负极输入电压,聚合物就能被加工成一种吸收或排除某些电解液的物质,这样它也就会增大或缩小。
By applying a voltage across the electrodes of a pixel, the polymer can be made to absorb or expel some of the electrolyte and thus expand or contract.
因此,安装加工中心的位置,需要电源电压有严格控制。
Therefore, the installation of the machining center location, the need for strict control of power supply voltage.
用原子力显微镜(AFM)研究了电场诱导氧化理论以及偏置电压和脉冲时间对加工结构尺寸的影响。
The theory of field-induced oxidation and the impact of bias voltage and pulse time on the nanofabrication were studied by AFM.
研究超高频群脉冲(UGP)电化学加工中脉冲电压对底部间隙、侧面间隙和极间流场的影响。
Investigates influences of pulses on the bottom gap, the side gap and the electrolyte flow field in ultra-short group pulses (UGP) electrochemical machining.
介绍了用于光测电压的晶体的选择与晶体加工设计中的光轴选定原则。
This paper introduces the selection of crystal used for voltage measurement with optic, and the principle for selecting the optic axle.
文中分析了在极不均匀电场下间隙的击穿过程,并用试验研究了微细加工时电极极性对间隙击穿电压的影响。
The process of dielectric breakdown in uneven electric field is analyzed and the influence of electrode polarity on gap breakdown is researched.
电火花线切割加工时工具(电极丝)和工件之间的放电电压是对放电加工过程进行实时检测的重要参数。
Voltage between tool and workpiece is an important parameter in the on line monitoring of wire electrical discharge machining (WEDM) process.
这种测试方法,评估在加工时铣刀磨损量对铣刀与工具之间温差电压的影响,而非直接观察刀刃本身。
This method evaluates the effects on the thermo -voltage of the wearing instead of directly observing the tools themselves.
实验考虑了样品的表面状态,周围大气状况,所加电压的极性、大小和加压方式等影响纳米加工的因素。
Influential factors were considered including specimen's surface state, ambient atmosphere, polarity, magnitude and method of tip sample applied voltage.
本发明所制备材料的响应电压范围大,可在不同的电压作用下收缩,具有控制方便、可实现定量控制、易加工成型及应用范围广的特点。
The material of the present invention has wide responding voltage range, may shrink in different voltages, and has the features of convenient control, easy forming and wide application range.
室温下,成品电缆内外导体间施加工频1000V电压、保持1min或直流1500V电压、保持1min应不击穿。
Greenhouse, finished conductor cables between the internal and externalprocessing Shi-voltage 1000 V, 1 min or maintain DC 1500V voltage, 1 min should not keep the breakdown.
室温下,成品电缆内外导体间施加工频1000V电压、保持1min或直流1500V电压、保持1min应不击穿。
Greenhouse, finished conductor cables between the internal and externalprocessing Shi-voltage 1000 V, 1 min or maintain DC 1500V voltage, 1 min should not keep the breakdown.
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