加工间隙的监测与控制是电解加工的一个重要研究内容。
Monitor and control of machining gap is an important topic in electrochemical machining (ECM).
加工间隙放电状态的检测是电火花加工控制系统的一个关键环节。
Precisely monitoring the gap condition is important for the machine control system to maintain a stable and high efficient machining process.
通过工程实例,简要叙述低温加工间空调及附属区域通风系统的设计体会。
Through projects, describe the designing of the air conditioning of low-temperature processing room and the ventilation system of affiliated regional briefly.
旋转阴极展成电解加工主要用于型面的光整加工,其最终加工间隙决定了型面精度。
The ECCEM (Electrochemical Contour Evolution Machining) is mainly used for finishing surface, the final gap determines the final surface precision.
适用于单独空间的消毒杀菌,可对制药、食品加工间、更衣室、办公场所消毒净化。
In a separate space for disinfection sterilization, may be the pharmaceutical, food processing rooms, changing rooms, office space disinfection purification.
如何有效在线检测并控制加工间隙,是电解加工专家、学者们始终希望解决的一个关键难题。
How to on-line monitor and control the gap in effect has been the key difficult problem that ECM experts and scholars want to settle all the time.
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.
建立了圆棒阴极展成电解加工的数学物理模型并以计算机求解,根据计算结果提出了加工间隙的简便算法。
The physic mathematical model of electrochemical contour evolution machining using a round cathode is set up and solved on a computer.
通过对孔电解加工中加工间隙的电场和流场仿真,研究了电极绝缘层的涂覆尺寸特征对小孔加工性能的影响。
Effect of electrode insulation on the electric field and the flow field of the machining gap during electrochemical drilling (ECD) is numerically studied.
并根据设计的硬币花纹工艺试验表明,选择较高的主脉冲频率,可获得较小的加工间隙,进而获得良好的表面质量。
It is indicated from the process experiment of coin figure that smaller gap and higher surface quality are obtained by choosing higher main pulse frequency.
给出了脉冲电化学加工极间平衡间隙的数学模型,并据此讨论了高频群脉冲电化学加工中,电源主脉冲频率与平衡加工间隙的关系。
Based on the model, the relationship between the main pulse frequency of supply power and the balanceable inter-electrode gap is discussed.
给出了脉冲电化学加工极间平衡间隙的数学模型,并据此讨论了高频群脉冲电化学加工中,电源主脉冲频率与平衡加工间隙的关系。
Based on the model, the relationship between the main pulse frequency of supply power and the balanceable inter-electrode gap is discussed.
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