氧气或大气等离子体仅能往除汗渍的有机成分。
An oxygen or air plasma would only remove the organic component of sweat.
最后,介绍了整个大气等离子体数控加工的实现过程。
Finally, the entire realization process of the numerical control machining for the APPP was proposed.
研究了该系统的平台设计、大气等离子体加工工艺特性及其数控加工过程。
The design of a system platform, APPP process characteristics and numerical control process were investigated.
首先,根据大气等离子体加工的原理及要求介绍了该数控加工系统的组成。
First, according to the principle and requirements of the APPP, the numerical control system composition was presented.
提出了一种用于高功率微波武器系统的光致大气等离子体通道天线(PCA),并分析了P CA所传播一般模式的传播特性。
In this paper, a laser induced air plasma channel antenna (PCA) for high power microwave weapon is presented, and the dispersive characteristic for normal modes of PCA is analyzed.
直到最近,研究人员才能够在35至40摄氏度和大气压下制造出等离子体。
And only recently have researchers been able to make plasmas at a steady 35 to 40 degrees Celsius and at atmospheric pressure.
“发现号”上较老的板片的条纹是其在返回途中地球大气层等离子体环境造成的,在照片中它们更扎眼的原因是新的板片还保持着原来的深黑色。
Older tiles on Discovery look streaked from the plasma environment of re-entry. They stand out in photos because new tiles still appear a pristine dark black.
本论文通过对反应器结构的改进,成功地研制出了大气压反常辉光放电等离子体化学反应器。
In this dissertation, through some improvements of conventional reactor structure, a new abnormal glow discharge plasma chemical reaction apparatus under atmospheric pressure has been invented.
本文利用欧洲非相干散射雷达数据,分析研究了电离层不同等离子体参量对大气重力波的响应之间的关系。
Relationships between ionospheric responses to atmospheric gravity waves in different plasma quantities are investigated with the help of European Incoherent Scatter radar data.
等离子体隐身的机理非常的复杂,其中包含有十分复杂的大气化学过程。
The mechanics of plasma radio is very complex, including very complex atmospheric chemical processes.
此外,氩气等离子体不会像大气或氧气等离子体氧化银。
In addition, argon plasma will not oxidize silver unlike an air or oxygen plasma.
由于传统的DBD在气体电离方法方面存在许多问题,致使大气压条件下放电空间内气体的电离度很低,无法满足非平衡等离子体化学工程的需要。
There are many unsolved problems in conventional DBD gas ionization technique, resulting in lower gas ionizability, which cannot be used in non-equilibrium plasma chemistry.
大气压非热电弧的直径是确定电弧电流密度、从而确定等离子体电子密度和电子温度的重要参数之一。
The diameter of non-thermal arc plasma is an important parameter to determine the current density of arc that determines temperature and density of the electrons.
介绍了等离子体的概念、特点及产生。并就等离子体在水和废水、大气、及其它环境样品监测中的应用作了综述。
The concept, characteristics and produce of plasma are introduced. Application of plasma in water, air and other environmental sample monitoring are summarized.
大气压非平衡等离子体由于其巨大的应用前景正成为等离子体物理学界关注的热点领域。
In recent years, the plasma physics scientific community has paid much attention to the development of atmospheric pressure, non-equilibrium plasma sources.
为了研究大气压空气等离子体对绝缘材料表面改性的影响,采用介质阻挡放电对聚苯乙烯进行了表面改性。
In order to study the effect of atmospheric pressure air plasma on insulating material surface modification, using dielectric barrier discharge to modify polystyrene surface.
进行了大气压等离子体激励抑制分离流动的试验研究。
Experimental investigation of atmosphere plasma actuation based flow separation suppression is performed.
在大气压下,一些用于低气压等离子体中的成熟的诊断技术就不再适用了。
At atmospheric pressure, some sophisticated diagnostic techniques developed for low-pressure plasmas are not applicable.
当背景气压在千分之一大气压左右时,等离子体在背景气体中形成“雪犁”状,羽状等离子体出现快速和慢速传播分离现象。
And the ejection into ambient gas of one thousandth atmosphere or so is special, the 'snowplow' phenomenon is observed and the plume plasma splits into fast_ and slow_moving parts.
利用同轴介质阻挡辉光放电装置在大气压流动氩中产生了均匀的等离子体射流。
A uniform plasma plume is generated by using dielectric barrier discharge in a coaxial geommetry in flowing argon at one atmospheric pressure.
应用高功率微波大气传输机理和等离子体物理理论,提出了一种新概念天线等离子体有源透镜天线。
Applying the mechanics of the propagation of high power microwave in atmosphere and the theory of plasma physics, a sort of new conception antenna-active lens antenna based on plasma is put forward.
当再入目标高超声速穿越大气层时,将产生等离子体鞘套和尾流,其雷达散射特性受到目标包覆等离子体参数变化的影响而产生剧烈波动。
While the reentry target passes through the earths atmosphere at ultrasonic speed, the RCS of the reentry Capsule changed violently because of the plasma sheath and wake.
进行了大气压等离子体流动控制初步实验。
Elementary atmosphere plasma flow control experiment is performed.
本文利用介质阻挡放电(DBD)制式,在流动的氩气中实现了大气压低温等离子体射流。
In this paper, a plasma jet of argon has been achieved using dielectric barrier discharge (DBD) in flowing argon at atmospheric pressure.
文中分析了电晕放电、介质阻挡放电和电弧放电并叙述了大气压均匀辉光放电等离子体研究的最新进展。
This article provides the corona discharge, the dielectric barrier discharge, and the arc discharge. The recent efforts to obtain the homogenous atmospheric pressure glow discharge are also discussed.
本研究设计了一套微波等离子体反应器,在大气压下激发并维持稳定的等离子体。
In this study, the microwave plasma device is designed to excite and maintain stable plasma on atmospheric press.
采用新研制的具有旋转螺旋状电极的大气压辉光放电等离子体反应器催化甲烷偶联制碳二烃。
Methane coupling to produce C2 hydrocarbons was studied with a newly developed rotary helix electrode in glow discharge plasma at atmospheric pressure.
对工作在大气压下的空气等离子体射流,得出焓探头测量的温度范围在80 0 ~ 70 0 0K左右。
For air plasma jets operating at atmospheric pressure, the range of temperature measurement of the enthalpy probe is 800k to 7000k.
对工作在大气压下的空气等离子体射流,得出焓探头测量的温度范围在80 0 ~ 70 0 0K左右。
For air plasma jets operating at atmospheric pressure, the range of temperature measurement of the enthalpy probe is 800k to 7000k.
应用推荐