一种差分微放电检测系统。
所述系统包含两个微放电检测器 (MDD)。
介绍了星载微波设备低气压放电和微放电的机理,以及两种放电试验的异同点。
The mechanism of the low-pressure discharge and multipactor in satellite-borne microwave equipment, and comparison between two discharge tests were described in this paper.
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.
对空间微波重要部件矩形波导和方同轴线的微放电效应阈值进行了预测计算和对比。
The multipactor thresholds of rectangular wave-guide and square coaxial line were predicted and compared.
根据壁电荷对相邻两次微放电的不同影响,建立了介质阻挡放电时间序列的映射方程。
Considering the different effects of wall charges on the adjacent micro-discharges in DBD, we have proposed a mapping equation of discharge moment.
微放电模式是工业应用中DBD的主要放电模式,微流注又是DBD中的主要放电单元。
The main DBD discharge mode in the industrial applications is micro-discharge, which is the discharge unit in the DBD.
微空心阴极放电(MHCD)是在普通空心阴极放电的基础上提出的一种高气压下亚毫米级微放电技术。
Micro-hollow cathode discharge (MHCD) is a newly advanced micro-discharge technique based on ordinary cathode discharge in a sub-millimeter scale micro-hollow under high pressure.
微空心阴极放电(MHCD)是在普通空心阴极放电的基础上提出的一种高气压下亚毫米级微放电技术。
Micro-hollow cathode discharge (MHCD) is a newly advanced micro-discharge technique based on ordinary cathode discharge in a sub-millimeter level micro-hollow under high pressure.
但两放电针是一种微电流,对人体及其它动物不会构成安全威胁。
However the two discharge needles have micro-currents which will not pose a security threat to human body and other animals.
区别于现有的微欧仪,本设计采用由电容组成的二阶振荡电路做脉冲电源对开关进行放电。
In this thesis, switchgear test power is supplied by a pulse power, composed of a second order oscillating circuit including a capacitance.
微弧氧化技术是将铝合金置于电解液中通电使其表面产生微弧放电,而在铝合金表面原位生长一层陶瓷膜的表面处理技术。
It is a technology that ceramic film is formed in condition of hyperthermia and heavy pressure produced by micro-plasma on aluminum alloy in given electrolyte.
实验结果表明,表面微包覆铜贮氢电极在放电容量、高倍率放电、自放电和循环寿命性能方面均有明显改进。
The results show that the copper-microencapsulated hydrogen-storage alloy electrode has better performances in capacity, high-rate discharge, self-discharge and cycle life.
本文介绍了微空心阴极放电的研究进展,分析了其光谱特性,最后讨论了它的应用前景。
In this paper, we introduce the development of research on MHCD, and discuss its spectra characteristics. Finally, the potential of its application is outlooked.
镀镍层有利于贮氢合金氢化物电极大电流放电,这种作用源于微包覆过程中氢脆引起合金颗粒的细化与表面镀层增强了电极的导电性。
The rate capability of the alloys is improved after plating, due to the fine particles formed through hydrogen crisping and the nickel layer contributed to the conductivity of electrodes.
微空心阴极放电;
研究了陶瓷层的生长规律以及氧化电压随时间的变化规律。研究表明,在弱酸性介质中,同样可以发生微等离子体放电现象;
The laws of the growing of the ceramic coating and the variety of voltage on the time are studied in the paper.
图七微等离子弧放电催化装置简图 ( 1。 电源;
Illustration of micro plasma catalysis equipment ( 1. powersupp ly;
图七微等离子弧放电催化装置简图 ( 1。 电源;
Illustration of micro plasma catalysis equipment ( 1. powersupp ly;
应用推荐