空气等离子体的处理效果最好。
讨论了用空气等离子体活化处理技术制备聚丙烯-胰蛋白酶膜的方法。
This paper described a method to prepare polypropylene-trypsin membrane by air plasma active technique.
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.
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.
研究结果表明,低温等离子体表面改性处理能够刻蚀牦牛毛纤维表面的鳞片,而且空气等离子体的刻蚀效果优于氧等离子体的刻蚀效果;
The results reflect that treated by low temperature plasma processing the surface squama of yak hair is etched and the effect of air plasma is better than that of oxygen plasma.
其间存在弧电流,还会将周围空气电离,将电子从原子中剥离出来,产生的废物被注入进这些等离子体中。
A current arcs between them and turns the surrounding air into a plasma by stripping electrons from their parent atoms. Waste (chopped up into small pieces if it is solid) is fed into this plasma.
一道电流在两个电极之间划过,带走空气里父原子中的电子,从而使周遭空气变成等离子体。
A current arcs between them and turns the surrounding air into a plasma by stripping electrons from their parent atoms.
废物(如果是固体则切割成小块)被放入等离子体化的空气中,等离子体的热能和电荷会将废物组织的化学键打破,从而使之蒸发消失。
Waste (chopped up into small pieces if it is solid) is fed into this plasma. The heat and electric charges of the plasma break the chemical bonds in the waste, vaporising it.
本文利用冷等离子体技术对石墨纤维表面进行了连续空气冷等离子表面处理。
In this paper, the surface of graphite fiber is treated continuously by using air-cold plasma.
当闪电冲向地面将空气变为等离子体时,它所经历的路径是逐步形成的。
The path lightning takes is formed step by step as it moves towards the ground, turning air into plasma.
压缩空气在磁场作用下产生的等离子体可以点燃煤粉并保持稳定燃烧。
The plasma generated by compressed air in magnetic field can ignite pulverized coal and keep stable burning.
观测了空气低温等离子体对涤纶纤维的表面改性作用。
The surface modification of air low-temperature plasma on Terylene fiber is observed.
结果表明,脉冲co 2激光功率密度经三次反射激光聚焦系统达到空气击穿阈值,实验中观察到等离子体发光现象。
The results show: pulse power density from CO2 laser reaches air breakdown threshold through thrice reflecting focus system, and plasma radiation phenomena is observed in the experiment.
本文研究了微波与激光击穿空气形成的等离子体的相互作用。
This paper introduces the interaction between microwave and plasma which is induced by laser breakdown in the air.
目的研究一种新型的等离子体-光催化复合空气净化技术。
Objective To develop a new technique of air purification by plasma combined with photocatalysis .
开发的两种产生低温非平衡态等离子体的电源具有成本低、体积小等优点,适用于室内空气净化。
Two types of power supply generating non-equilibrium plasmas are developed and suitable for application of indoor air purification due to small size and low cost.
目的研究一种新型非热等离子体空气净化器并观察其杀菌效果。
Objective To develope a new-type non-thermal plasma air purifier and observe its germicidal efficacy.
采用YAG脉冲激光的四倍频输出与两平行平面极板间空气相互作用产生等离子体。
Plasma was instantly produced after the interaction between the air and the YAG laser pulse quadruple output in the interspace of parallel-plate electrodes in the vacuum chamber.
介绍了目前国际上较先进的低温非平衡态等离子体空气净化技术。
An internationally advanced air purification technique by non-equilibrium plasmas is introduced.
为了提高棉织物的抗紫外线性能,对其进行空气低温等离子体处理。
Cotton fabric was treated by air plasma to improve its resistance to ultraviolet radiation.
前言:利用氩等离子体对聚四氟乙烯膜进行预处理,经与空气接触后接枝丙烯酸。
In this study, the Polytetrafluoroethylene (PTFE) film was pre-treated by argon plasma and contacted with air before graft with acrylic acid.
在静止的空气中诱导了流场,验证了应用辉光等离子体实现主动流动控制的新思路。
The flow was induced by plasma, which confirms that active flow control can be come true by applying glow plasma.
以磁流体动力学(MHD)为基础建立了三维空气电弧等离子体在外部磁场作用下运动时的数学模型。
The mathematical model of 3-dimentional air arc plasma under the effect of external magnetic field is set up based on magnetic hydro-dynamics(MHD).
目的了解等离子体空气消毒机对手术室空气消毒效果。
Objective To study the germicidal efficacy of plasma air-sterilizing machine in operating theatre.
在空气环境中利用氩等离子体射流进行材料加工时,环境空气卷吸进入射流可能会引起金属材料氧化。
When materials processing using laminar argon plasma jets is performed in ambient air, the entrainment of air into the jets will lead to the oxidation of processed metallic materials.
以燃料和空气混合物为工质的燃烧反应性电弧等离子体在燃烧技术和等离子体技术中都有广泛的应用前景。
Electric arcs in combustible gas mixtures, as a high temperature source in combustion and plasma technology, have a great deal of advantages in comparison with those in noble gases.
文摘:本文对《空气动力学学报》 1997年第4期上发表的氩等离子体的热导率的实验研究结果的可靠性做了讨论。
Abstract : the reliability of the experimental results concerning the thermal conductivity of an argon plasma reported in acta aerodynamica sinica , 1997 , 15 ( 4 ) has been discussed.
实验证明利用等离子体技术去除室内空气中的挥发性有机物,在合适的流量和较高的放电电压下,可以达到90%以上的去除效果。
The experiment indicated that plasma technology has excellent effect to remove indoor VOCs, and can reach more than 90% on condition of proper flux and stronger discharging voltage.
本研究以等离子体技术净化室内空气后产生的尾气为研究对象,考察利用催化转化技术去除这类尾气的效果,并探讨合适的后置催化剂和催化温度。
Based on the technology of catalysis and transform, the effect of disposing tail gas pollution from purifying indoor air is also studied with catalyst. So it is discussed how to sele…
本研究以等离子体技术净化室内空气后产生的尾气为研究对象,考察利用催化转化技术去除这类尾气的效果,并探讨合适的后置催化剂和催化温度。
Based on the technology of catalysis and transform, the effect of disposing tail gas pollution from purifying indoor air is also studied with catalyst. So it is discussed how to sele…
应用推荐