The influence of peak current on finishing high-speed wire electrical discharge machining (WEDM) in gas and emulsion dielectric is studied.
研究了在大气和乳化液两种介质中,峰值电流对高速走丝电火花线切割加工的影响。
WEDM in gas is a kind of newly developed technology, in which gas has been used as a dielectric.
气中电火花线切割加工技术是近几年出现的一种新技术,它采用气体作为介质。
The stopping powers and energy stragglings for implanted ions in strongly coupled degenerate electron gas were investigated using local -field correction dielectric function.
利用局域场修正的介电函数,研究了注入离子在强耦合简并电子气中的阻止本领和能量离散。
Various discharge modes, such as square, hexagon, superlattice, and like-glow discharge, have been observed in ac-driven gas discharge by using the dielectric barrier discharge device.
本工作采用介质阻挡放电装置,在交流气体放电中观察到不同类型的四边形、六边形、超点阵以及类辉光放电等放电模式。
Some factors can affect greatly the effect of chargesdeposited in layer, such as applied voltage and frequency, dielectric material, DBD configuration and media gas, etc.
激励电源电压与频率、电介质材料、DBD结构、媒介气体等均会对电荷沉积效应产生较大影响。
A method for obtaining the release of a fuel gas mixture including hydrogen and oxygen from water in which the water is processed as a dielectric medium in an electrical resonant circuit.
阿获得的燃料,氢等混合气体和水,其中水作为电力谐振电路电介质释放氧气处理方法。
A new WEDM (Wire Electrical Discharge Machining) technology for finishing cut has been developed, in which gas has been used as a dielectric instead of water.
用气体介质代替液体介质,开发出了一种新型的电火花切割精加工工艺。
"Pollution degree" describes the degree to which a soild liquid or gas which deteriorates dielectric strength or surf ace resistivity is adhering.
“污染等级”是指固体、液体或气体恶化绝缘强度或表面电阻率的程度。
The gate dielectric layer is deposited using a plasma enhanced deposition with a gas mixture comprising a silicon and chlorine containing compound.
门电介质沉积层使用气体包括一个芯片和含氯化合物的混合物等离子增强沉积。
When the surface of porous silicon adsorbs gas molecule, the conductivity and dielectric Constance of porous silicon membrane take place to changes.
多孔硅表面吸附乙醇分子后,多孔硅膜的导电性和介电常数会发生改变,引起气敏元件的电阻和电容值变化。
Removal effects of NO in the fuel gas was determined by the micro-discharge and chemical kinetic mechanism of dielectric barrier discharge.
烟气中NO的脱除效果直接由介质阻挡放电的微放电过程和化学动力学过程所决定。
Removal effects of NO in the fuel gas was determined by the micro-discharge and chemical kinetic mechanism of dielectric barrier discharge.
烟气中NO的脱除效果直接由介质阻挡放电的微放电过程和化学动力学过程所决定。
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