microplasma
英
美
n. 微等离子区;微等离子体
双语例句
- Study on Preparing of Black Ceramic Layer by Microplasma Oxidation on Aluminum Alloy
铝合金表面微等离子体氧化黑色陶瓷层制备的研究 - The phase and microhardness distributions in ceramic coating formed by microplasma oxidation on LY12 aluminum alloy were investigated using X-ray diffractometer and microhardness tester.
使用X射线衍射仪和显微硬度计测定了LY12铝合金微等离子体氧化陶瓷膜沿深度方向的相分布及显微硬度变化曲线。 - In this paper, in order to improve reliability and repetitive-use properties of titanium fastening piece, microplasma oxidation method had been advanced on the surface technology.
本课题针对钛合金紧固件摩擦学性能的改善,将微等离子体氧化技术应用在钛合金紧固件表面改性上,以提高其可靠性和重复使用性。 - The etching mechanism of the microplasma reactor for Scanning Plasma Etching is digitally simulated with a two dimensional fluid model.
采用二维流体模型对扫描刻蚀加工中的微小等离子体发生器的刻蚀机理进行了数值仿真研究。 - Arrays of Microplasma Devices Fabricated by Printed Circuit Board Processes
印刷线路板加工工艺制作微腔等离子体阵列 - Influence of microplasma spray parameters on the microstructure and crystallinity of hydroxyapatite coatings;
结果表明,在试验条件下,喷涂参数对涂层组织和性能产生较大的影响。 - Influences of main parameters such as composition of electrolyte and electrical parameters in preparing black ceramic coating by microplasma oxidation on ADC12 aluminum alloy were studied.
研究了ADC12铝合金表面微等离子体氧化法制备黑色陶瓷膜的电解液成分和电参数等对膜层性能的影响。 - Brazing quality and product reliability are both increased as using high frequency pulse microplasma arc heating process for assembly brazing of cathode and photoetching grid of electron tube.
采用高频脉冲微束等离子弧做为电子管阴极和光刻栅极装配钎焊工艺的热源,提高了钎缝质量和产品的可靠性。 - A modulated pulse microplasma arc welding power supply is developed by using high frequency pulse technology because of its function of self compacting and its feature of stability.
鉴于高频电弧具有较强的自收缩作用及较好的电弧稳定性的特点,研制了调制型脉冲微束等离子弧电源。 - Study on Microplasma Oxidation Technology of Aluminium Alloy and the Modeling by Use of Adaptive Neural Fuzzy Inference System
铝合金微等离子体氧化工艺研究及自适应神经模糊推理建模 - Investigation of Microplasma in Physiological Saline Produced by a High-power YAG Laser
高功率YAG激光在生理盐水中产生微等离子体的研究 - Microplasma Breakdown In High Power Transistors
硅大功率晶体管的微等离子击穿 - Microplasma arc welding of stainless steel cup of thermal insulation
不锈钢保温杯的微束等离子弧焊接 - Testing and Analysing of Temperature Field of Microplasma Arc with HF Pulse Current
高频脉冲微束等离子电弧温度场的测试及分析 - Fabrication of Barium Titanate Thin Films by Microplasma Oxidation
微等离子体氧化法制备钛酸钡陶瓷膜 - Phase Distribution and Microhardness Analysis of Ceramic Coatings Formed by Microplasma Oxidation on Aluminum Alloys
LY12铝合金微等离子体氧化陶瓷膜的相分布及显微硬度分析 - Design and Experiments of Microplasma Reactor for Scanning Plasma Etching
用于扫描刻蚀加工的微小等离子体反应器的设计和实验 - A new integrated microplasma etching system based on scanning micro probe was presented in our group, and a microplasma maskless etching can be realized with high efficiency and high resolution.
我们提出了一种基于扫描探针的微等离子体加工方法,以实现集成化、高效率、高分辨率的微等离子体无掩膜刻蚀。 - Using a two-dimensional spatially resolved optical system, the microplasma was investigated and is spectra lines were recorded by a electrical multiplied CCD.
利用一个具有二维空间分辨的光学放大系统对微等离子体进行观察,并记录下不同谱线强度的空间分布。 - Because of the two points above, a microplasma has obtained wide attention in recent years.
因为这两点,微等离子体近些年受到了广泛的关注和研究。 - The microplasma generated in argon shows a spatial pattern, which varies with the power.
发卡共振器在氩气中所产生的微等离子体呈现出特殊的空间周期结构,并随着功率的变化而变化。 - The purpose of this thesis is to design a new device to produce a microplasma and study its discharge characteristics.
本论文工作目的是制作一个新型的微等离子体发生装置并研究其放电特性。 - Based on the existing equipment in our lab, a set of microplasma testing system is developed in this dissertation.
在实验室原有设备基础上,设计并加工出一套微等离子体性能测试装置。 - The main contents of the present dissertation are as follows: 1. A novel hydride atomizer for AAS based on atmospheric pressure dielectric barrier discharge ( DBD) microplasma has been developed.
本论文主要的研究内容如下:1.提出了基于介质阻挡放电微等离子体的新型氢化物原子化器。 - In the microplasma etching system, microplasma generators are integrated on the SiO2 cantilevers, and there are different inner stresses in each layer, which cause the cantilever bending.
探针式微等离子体扫描加工系统中,微放电器被整体集成在氧化硅悬臂梁上,多层薄膜的沉积与图形化会在悬臂梁中产生复杂的残余内应力状态,引起结构弯曲变形。 - A typical microplasma is no more than 1 mm in scale, far less than traditional plasma, so it has many new properties.
典型的微等离子体尺度在1毫米以下,远远小于传统的等离子体,并且可以在大气压下运行,因此有非常多新的性质。 - Hollow pyramid tip is the weakest structure in our microplasma etching system, so the mechanical characteristics of the tips are researched at first. The inner stress distribution and the influences of load and width-thickness ratio are discussed.
首先研究了系统中最薄弱的金字塔空心针尖结构的力学特性,分析了其在加工过程中的内应力分布规律及载荷、针尖宽厚比等因素对结构的影响。 - The microplasma also has many potential applications, such as bio-medicine, micro-machining, UV lighting source, etc..
微等离子体又有许多潜在的应用,比如生物制药、微加工、微型光源等。 - However, most of the existing microplasma etching devices work with low efficiency and low resolution, so that they have not become the dominate methods of micro/ nano-fabrication.
然而,目前的微等离子体器件由于加工分辨率低,体积较大不利于集成化等缺点,仍无法成为微纳米加工的主流手段。 - Through the in-depth analysis of electron transportation in the MIS devices, it was pointed out that the N2 microplasma was formed by the activation of air near the surface of the MIS device by the highly energetic electrons emitted from the MIS device under the high voltages.
通过负阻模型对金刚石膜MIS器件中的电子输运特性进行了分析,并指出N2微等离子体是由于MIS器件在高电压下发射出足够高能量的电子激发器件表面附近的空气所产生的。