针对非金属材料表面下异常或损伤的检测,提出一个同面8电极电容传感器。
A uniplanar capacitive sensor, with 8-electrode on one plane substrate, is designed to detect the subsurface anomalies or damage of non-metallic materials.
本文首先以平行板阵列电极电容传感器为例对多相界面的检测机理进行了讨论。
This paper first presents a case study dealing with the detection mechanism of multi phase interface level taking a parallel plate capacitance sensor as an example.
用电容传感器的三维有限元模型,分析了8电极电容层析成象传感器灵敏度的三维分布。
The three dimensional sensitivity distribution of an 8 electrode capacitance tomography sensor is analyzed using three-dimensional finite element method.
本文用固定电极电容电流理论对分支加和循环伏安法消除电容电流影响的原理作了说明;
The theories of the branch addition cyclic voltammetry for reversible, quasi-reversible and irreversible processes at the planar electrode were deduced with digital simulation method.
用自开发的有限元仿真软件包模拟计算电极对间的电容值,确定12电极电容层析成像系统的灵敏场分布。
A finite element simulation software is developed, which is used to calculate capacitance between electrodes and define the sensitivity distribution of 12 electrode capacitance tomography system.
用自开发的有限元仿真软件包模拟计算电极对间的电容值,确定12电极电容层析成像系统的灵敏场分布。
A finite element simulation software is developed, which is used to calculate capacitance between electrodes and define the sensitivity distribution of 12 electrode...
离子水化对炭电极的电容产生不利影响,选用大离子和增大炭材料的孔径,可有效降低离子水化对炭电极电容性能的影响。
Hydration of ion has bad influences on double-layer capacitance of carbon electrode, which can be reduced effectively by selecting large ion or increasing pore size of carbon electrode.
另一种方法称为超级电容,它只使用电极的表面储存电能。
The other way is called a supercapacitor. This stores energy only at the surface of the electrode.
在超级电容中,离子和带相反电荷的电极之间的距离非常小,需要用纳米(千分之一微米)计算。
In an ultracapacitor, the distance between the ions and opposite-charged electrode is so tiny it's measured in nanometers (one-thousandth of a micron).
电容器的储电量取决于两个电极表面区域、电极间的绝缘性的强弱、绝缘材料以及两电极间距离。
The amount of charge that can be stored depends on the surface area of the electrodes, the strength and composition of the insulation between them, and how close they are together.
纳米多孔金属材料由于其较高的表面积所以拥有良好的电子传输特性,这正好改善了其在导电双电容或电池上的电极性能。
They posses a high surface area for better electron transfer, which can lead to the improved performance of an electrode in an electric double capacitor or battery.
由于石墨烯的这些优势,研究人员希望其可以为电池,燃料电池和电容器等许多电化学系统带来复合电极的重大进展。
With these advantages, the researchers expect the df-G to bring significant advances of composite electrodes for a variety of electrochemical system, including batteries, fuel cells, and capacitors.
为拓展碳纳米管的实际应用,对碳纳米管应用于超级电容器的电极材料的特点作了深入分析。
The features of carbon nanotube electrodes for fabricating supercapacitors were analyzed to provide data for practical application of carbon nanotubes.
作为铁电电容的电极材料,铂是使用最为广泛的金属。
Pt has been widely used for the electrode materials of ferroelectric capacitors.
在岛区受到的静电力的表达式中,除了包括漏源电极的作用外,还考虑了双栅电极和系统初始电容值的影响。
The expression of the electrostatic force which drives the island considers the function of the gate electrodes and the initial capacitances besides the effect of the drain-source electrode.
电容近炸引信探测电极的设计,对确定引信灵敏度至关重要。
The design of detecting electrodes in a capacitance fuze is a critically important factor that determines its sensitivity.
碳纳米管作为一种新型碳材料,具有质轻,高的有效比表面积和优良的导电性,是制备双电层电容器较为理想的电极材料。
Carbon nanotube, a new carbon material, is an ideal material for the electrodes of double electric layer capacitors for its lightweight, large effective specific surface area and high conductivity.
通过理论分析和有限元计算可以看出,电容近炸引信对地电容方程可以用等效球电极的电容方程来建立。
The formulation of the capacitance vs ground of the capacitance proximity fuze can be set up by the equivalent spheroid electrode.
绝缘纸板微水分介电测量系统中,电容式传感器电极与被测绝缘纸板的接触状态与接触压力会影响测量结果。
The contacting state and pressure between the pressboard and the electrodes of the capacitive sensor in dielectrometry system can affect the measurement of moisture in pressboard.
采用表面喷塑的铝板为电极材料,自制了一组电容去离子(EST)模块,并且通过实验确定厂EST模块运行的最佳条件。
The unit of ElectroSorb Technology(EST) is self-made and the material of the electrode is aluminum. And the optimal running conditions are confirmed.
该类材料可以广泛地作为各种锂离子电池的负极材料,并可以作为电容器的电极材料。
This kind of material can be used as negative electrode material of diversified lithium ion battery widely, and as electrode material of capacitor.
由于碳基电容器正极容量远小于负极容量,所以本文主要致力于开发新的正极材料与作为负极的碳电极组成混合电容器。
The paper also found that the positive carbon electrode was much smaller than that of negative one, so it urged to develop new positive material to make up hybrid capacitor.
实验结果表明在二氧化钌中加入适量的活性炭,可以改善电极的阻抗特性,但将以降低电容量为代价。
The results indicate that it can improve impedance characteristics to add active carbon into ruthenium oxide, but decrease the capacitance of composite electrodes simultaneously.
实验结果表明,含氧官能团含量的增加有助于提高电极材料的电容性能。
Results showed that the specific capacitance of material enhanced due to the extended oxygen functional groups on the surface of carbons.
推导了电化学体系中理想极化电极、电化学极化电极的复数电容表达式。
The expressions of complex capacitance for ideal polarized electrodes and kinetic ontrolled electrodes were deduced.
超级电容器的研究主要集中在对高性能电极材料的制备上。
The studies on super-capacitors mainly focus on the preparation of the electrode materials.
有源静电悬浮轴承通过检测电极与转子间构成的球面间隙电容以得到转子位移。
The rotor motion in an active electrostatic bearing is obtained by detecting the variation of the spherical capacitance between electrodes and the rotor.
本文综述了碳基材料、金属氧化物及水合物材料和导电聚合物材料作为超级电容器电极材料的最新研究进展。
The recent progress of researches on supercapacitors using carbon material, metal oxides and conducing polymer as electrode materials are described in this review paper.
将经过二次活化处理的活性炭材料制作的电极片组装成碳基电化学电容器。
The electrochemical storage of energy was considered in a special kind of active carbon materials used as capacitor electrodes.
从循环伏安法结果得知,被修饰过之电极在水溶液极电极之电容电流及其表面积均较大。
Cyclic voltammograms of the modified electrodes showed that the capacitive current and area of the solution-electrode interface were rather large.
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