An atmospheric pressure plasma module is corresponding to the spray orifice of the second row.
常压等离子体模块对应该第二排喷孔。
The technique of atmospheric pressure plasma is of value in textile industry and is a means of improving the surface properties of natural fiber.
常压低温等离子体设备是一种在纺织行业中具有较大推广价值的设备,低温等离子体技术是一种改善天然纤维表面性能的有效方法。
Therefore, the study of photoresist stripping by using atmospheric pressure plasma is very important in the research and the practical application.
对常压射频冷等离子体去除光刻胶的研究具有重要的学术意义和实用价值。
As a result, it demonstrated that atmospheric pressure plasma jet technology can increase the roughness of fiber surface and dye depth, and improve dyeing property of Nylon 6 fiber,...
试验结果表明,常压等离子射流处理可增加纤维表面的粗糙度,增加纤维染色深度,提高尼龙6纤维的染色性能,且对纤维强度无影响。
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。
Using dielectric barrier discharge (DBD), atmospheric pressure non equilibrium plasma nitriding technology is under development at self made equipment.
利用介质阻挡放电,在自行研制的设备上进行常压非平衡等离子体渗氮。
An experimental system for atmospheric pressure non-equilibrium plasma had been established and optimized.
研制了常压非平衡等离子体实验系统,并对实验系统进行了优化。
A uniform plasma plume is generated by using dielectric barrier discharge in a coaxial geommetry in flowing argon at one atmospheric pressure.
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。
The article explores the feasibility of grafting of acrylic acid onto linen by initiating dielectric barrier discharge plasma at atmospheric pressure.
文章研究了大气压介质阻挡放电引发亚麻织物接枝丙烯酸的可行性,进行了亚麻织物的接枝与染色实验。
Dielectric barrier discharge (DBD) plasma is a novel type of plasma that can be generated under atmospheric pressure, which can easily be scaled up to industrial dimensions.
介质阻挡放电(DBD)等离子体技术是一种能够在常压下产生低温等离子体的新兴等离子体技术,具有很好的工业应用前景。
The experiments of glow discharge plasma conversion of methane to C2 hydrocarbons were conducted by a novel reactor with rotary electrode at room temperature and atmospheric pressure.
采用新型的旋转电极辉光放电反应器,在常温常压下对辉光等离子体作用下的甲烷转化制C2+烃进行了研究。
A high pulsed power supply and a dielectric barrier discharge reactor are designed, which produce non thermal plasma under normal atmospheric pressure.
研制了一套高压脉冲电源和介质阻挡放电反应器,通过在常压下放电产生低温等离子体。
In order to study the effect of atmospheric pressure air plasma on insulating material surface modification, using dielectric barrier discharge to modify polystyrene surface.
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。
Studies on nitriding and nanoscale powder preparation by atmospheric pressure non-equilibrium plasma were conducted, and the corresponding principles and technology were got thereby.
采用常压非平衡等离子体进行了金属表面的渗扩处理和纳米粉体材料的制备研究,提出了相应的技术原理。
In recent years, the plasma physics scientific community has paid much attention to the development of atmospheric pressure, non-equilibrium plasma sources.
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。
The surface modification of 316 austenitic stainless steel has been investigated by plasma-based low-energy ion implantation apparatus at various temperatures and working atmospheric pressure.
采用等离子体基低能离子注入装置在不同注入温度、气压条件下氮离子注入316奥氏体不锈钢。
The dielectric barrier discharge (DBD) can produce non-equilibrium plasma at about atmospheric pressure.
介质阻挡放电是一种较高气压范围下产生非平衡等离子体的放电方式。
Dielectric barrier discharges (DBD) for generating non-thermal plasma at atmospheric pressure for textile processing are reviewed.
综述了常压介电屏蔽放电(DBD)产生的非热等离子体在纺织整理中的应用。
In this paper, a plasma jet of argon has been achieved using dielectric barrier discharge (DBD) in flowing argon at atmospheric pressure.
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。
Methane coupling to produce C2 hydrocarbons was studied with a newly developed rotary helix electrode in glow discharge plasma at atmospheric pressure.
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。
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。
In the present work, a simply designed and easy made micrometer plasma jet device operating under atmospheric pressure was characterized.
介绍了一种结构简单、制作方便的微米量级大气压等离子体射流。
In the present work, a simply designed and easy made micrometer plasma jet device operating under atmospheric pressure was characterized.
介绍了一种结构简单、制作方便的微米量级大气压等离子体射流。
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