discharge gap
英 [dɪsˈtʃɑːdʒ ɡæp]
美 [dɪsˈtʃɑːrdʒ ɡæp]
网络 放电间隙
双语例句
- Effects of Discharge Gap on Dielectric Barrier Discharge Parameters
放电气隙对介质阻挡放电电学参量的影响 - The improved high-voltage electric bridge method is another accurate and convenient method to measure DBD plasma discharge power, owing to that it can effectively eliminate the effect of equivalent capacitance in discharge gap.
经过改进的高压电桥法能有效地排除放电间隙等效电容的影响,使它成为另一种能够准确、方便测量DBD等离子体放电功率的方法。采用窄间隙薄电介质层结构代替传统DBD的宽间隙结构; - The system's main functions are: testing the defects of the transparent electrode and recording the position of defects, measuring the widths of the transparent electrode and the discharge gap.
系统的主要功能为:透明电极的缺陷测量与定位和透明电极宽度与间隙测量。 - When discharge is full of discharge gap, each equivalent discharge parameter is around definite numerical value.
当放电充满整个间隙时,各等效放电参量在相同激励频率下基本保持在一定值附近。 - By changing the physical parameters such as discharge power per area, voltage, frequency and discharge gap and technical parameters such as total flow, volume ratio and reactor temperature, we study how these parameters affect methane and carbon dioxide plasma synthesis.
通过改变单位面积放电功率、放电频率、放电间隙等物理参数和气体的总流量、体积比、温度等工艺参数,考察其对甲烷二氧化碳等离子体合成反应的影响规律。 - Plasma source is designed by using the narrow discharge gap and thinner a-Al2O3 dielectric layer and high-frequency high-voltage power supply.
采用窄间隙薄α&Al2O3电介质层,结合高频高压激励电源构建了等离子体源; - Study of the Narrow Discharge Gap DBD Plasma Source at Atmospheric Pressure and Its Basic Applications
大气压窄间隙DBD等离子体源与应用基础研究 - Influence of Discharge gap and display electrode width on the optical and electrical characteristics of surface discharge color alternating current plasma display panel ( AC PDP) is experimentally studied and theoretically analyzed.
为了提高彩色ACPDP的性能,以放电间隙和显示电极宽度对表面放电型ACPDP光电特性的影响进行实验研究和理论分析。 - The system assumes resistance when it is working under the condition of resonance, so the supply voltage can be coupled to the discharge gap of DBD directly;
DBD系统工作于谐振频率时,系统呈阻性,从而可将电源电压直接耦合到DBD的放电间隙中去,既降低了激励变压器的输出电压; - In order to obtain the 3D data of the discharge gap and workpiece shape from the experimental results, a new measurement is proposed.
在试验结果的获取中,为能够得到很难测量的线电极周围的放电间隙和工件形状数据,提出一种新的三维形状测量方法。 - The uniformity of discharge gap is a very important technical parameter in lowering various interference factors and ensuring stable EDM process and quality.
在电火花加工中要降低各种干扰因素的影响,确保加工质量和稳定的加工过程,放电间隙的一致性是非常重要的一个技术指标。 - The electrical field strength and power density in the discharge gap of DBD have been improved using a narrow discharge gap, thinner dielectric layer and high-frequency high-voltage power supply in this micro-gap DBD at atmospheric pressure, and the properties of the DBD device have been enhanced.
在频率为10~20kHz高压电源激励下,采用窄间隙、薄电介质层结构DBD可以大幅度提高放电空间的电场强度,增加放电功率密度,提高了放电装置性能。 - According to these results, the design methods for discharge gap and display electrode width are summarized.
根据这些实验结果,总结出放电间隙和显示电极宽度的设计方法。 - The results indicate that when discharge happens in part of discharge gap, dielectric layers equivalent capacitance, gap equivalent capacitance and equivalent electric field of discharge gap have great discrepancy in different frequency;
结果表明:当放电只发生在间隙局部时,电介质层等效电容、间隙等效电容和等效电场强度在不同频率时在数值上相差很大; - The influences of the barrier position between two electrodes and the discharge gap width to discharge current characteristics is also discussed.
分析讨论了介质阻挡的位置和放电间隙对放电电流特性的影响。 - The formation and evolvement of the narrow discharge gap DBD plasma are explained, and many problems in designing and application of DBD plasma source are solved in this work.
通过本文的研究,不但弄清了大气压窄间隙DBD等离子体形成与演变机理,而且也解决了大气压窄间隙DBD等离子体源研制与应用过程中存在的许多技术难题。 - The influence of the discharge gap upon the machining quality for EDM
电火花加工中放电间隙影响因素的分析 - With the charge-voltage figure many key parameters may be obtained for studies on the applications of dielectric barrier discharge ( DBD) plasma, such as the discharge energy, gap capacitance, dielectric capacitance, cut-in voltage, gap voltage, and discharge gap electric field.
在DBD应用研究中,使用电荷电压法能够测量许多重要参量,如放电功率、放电间隙等效电容、电介质层等效电容、着火电压、放电间隙等效电压及放电间隙电场强度等。 - With the increase of input current, CO2 conversion and CO selectivity increase. As for reactor parameters, the effect of the different inner electrode material, discharge interval length, discharge gap distance, dielectric thickness, multi-stage discharge on the reaction had been investigated.
研究表明,改变各项参数,提高输入电流,会使CO2转化率和CO选择性提高;对于反应器参数,考察了不同内电极、放电区间长度、放电间距、介质厚度、多段放电对反应的影响。 - Meanwhile, the error propagation formula is used to analyze the influence of material removal rate, electrode feed speed and discharge gap on theoretical model.
同时,应用误差传递公式分析了微孔加工速度、电极进给速度和放电间隙三个变量的误差对该理论模型的影响,进一步证明了该理论模型的有效性。 - In this paper, a one-dimensional fluid model is used to explore the influences of the driving frequency and discharge gap on the production and destruction of ROS in atmospheric rf helium-oxygen discharges.
因此本文也讨论了电源的频率及放电间隙对大气压射频氦氧放电特性的影响。 - The experimental results show that: adopting thinner dielectric discharge and smaller discharge gap can improve the discharge power and electric field strength, increasing the discharge frequency may also improve discharge power, but its impact on the electric field strength is little.
实验结果表明:采用较薄的放电介质以及提高激励峰值电压均可有效提高放电功率、增大电场强度;增大放电频率也可提高放电功率,但其对电场强度的影响不大。 - By programming on the PCI-1716S to collect the data of the short arc current so as to adjust the discharge gap between the workpiece and the cutter and finally achieve the closed-loop controlling of the NC system.
对PCI-1716S进行编程,实现对短电弧加工电流的采集,数控系统利用采集系统反馈回来的电流信号,调节工件与刀盘之间的放电间隙,实现数控系统的闭环控制。 - In powder-mixed EDM, the existence of powder particles affects the physical and chemical nature of the working fluid and improves the discharge condition. Powder particles increase the discharge gap and improve the discharge stability.
粉末颗粒的存在影响着工作液的理化性质,并改善了极间放电状态,增大了放电间隙,提高了放电稳定性。 - The early atmospheric pressure non-equilibrium plasma, mostly the discharge gap is small that limit the shape and size of the workpiece to be treated in the parallel plate electrode. The discharge stability is also susceptible influence.
较早的大气压非平衡等离子体放电的获得,由于多是在放电间隙较小的平行板电极中进行的,比较限制被处理工件的形状与尺寸,放电稳定性也较易受到影响。 - The discharge gap of reactor, material of high-voltage electrode, length of discharge zone and discharge frequency have significant effects on reaction characteristics and energy efficiency.
放电管电极间距、高压电极材质、放电区长度及放电频率对H2O2合成过程中的反应特性及能量效率有重要影响。 - Moreover, the gas flow model of machining process was developed and the distribution laws of gas velocity and pressure in discharge gap were simulated by FLUENT software.
建立了气体介质电火花加工气体流场模型,并用FLUENT有限元软件对气体流场进行了模拟,得出了气体流速、压力等参数在放电间隙的分布规律。 - According to the state of discharge gap, combining Database technology, we adopt Neuro-Fuzzy control technology to realize real-time control of EDM process and auto-adjustment on the basis of process state, which ensure the process is in the state of optimization. 3.
依据放电间隙状况,通过采用神经模糊控制智能技术,并结合数据库技术,对电火花成型加工过程进行实时控制,根据加工状态自动进行调节,保证了加工过程处于优化状态。 - The results indicated that using copper electrode, a large discharge interval length, appropriate distance of discharge gap, small dielectric thickness would enhance the reaction result.
结果显示,采用紫铜电极、大的放电区间长度、适宜的放电间距、小的介质厚度会提高反应效果。 - As can be seen from the experimental data, temperature is an important factor in ozone synthesis. High dielectric constant material and narrow discharge gap are favor of ozone synthesis. Discharge voltage has the best value.
通过实验数据的讨论分析,得出温度对臭氧合成的影响比较显著,及高介电常数材料、窄放电间隙的选择有利于臭氧的合成,外加放电电压在臭氧合成中存在最佳值。