系统已成功应用于等离子放电过程中破裂与锯齿的研究。
The disruption and sawtooth during plasma discharge have been studied by this system.
它是通过瞬间高能脉冲电流使粉末颗粒之间产生等离子放电,烧结制成高性能材料或制件。
It facilitates plasma discharge generated by transient high-energy pulse electric current among powder particles to prepare high-performance materials.
该材料具有两种有效成分,通过它移动时的锂离子电池充电或放电,这有助于稳定活性物质,延长不活跃的电池寿命。
The material has both active components, through which lithium ions move when the battery is charged or discharged, and inactive ones that help stabilize the active material and extend battery life.
当电池放电的时候,锂离子从负极栅格游到正极栅格;充电时它们游回来。
As the battery discharges, the lithium ions swim from the negative-electrode lattice to the positive one; during recharging, they swim back again.
当大量带电原子或离子出入神经元时,会产生微小的跨膜电势,同时神经元放电。
Neurons fire when electrically charged atoms – ions – flood in and out of them, creating a tiny electric potential across their membranes.
放电时,离子回流,这个过程中会在连接到电池的外部电路中产生电流。
When it is discharging, the ions flow back and in the process cause a current to flow in an external circuit attached to the battery.
当放电时,锂离子和电子被从正极释放。
When they discharged it, lithium ions and electrons were released from the anode.
Arnsten认为,衰老的前额叶皮层中积累了过多的信号化学分子,称为环腺苷酸(Camp),它能打开离子通道,从而削弱前额叶皮层中神经元放电的频率。
Arnsten said that the aging prefrontal cortex appears to accumulate excessive levels of a signaling molecule called cAMP, which can open ion channels and weaken prefrontal neuronal firing.
像所有的金属一样,铁原子与其他元素反应,释放电子形成带正电的离子。
Like all metals, these react with other elements by giving up electrons to form positively charged ions.
在锂电池充电时,锂离子从正极向负极移动,而在锂电池放电时,锂离子从负极向正极回流,为连接在锂电池的外接电路提供电流。
When the thing is discharged, the ions flow back and in the process cause a current to flow in an external circuit attached to the battery.
电池放电时,正极释放出的锂离子快速运动回到负极,充电过程中在负极由锂离子携带的电子被释放出来,从而为外部电路提供电力。
As they do so, the electrons that were paired with them in the anode during the charging process are released. These electrons power an external circuit.
正是锂离子进入和脱离电极的速度决定了电池充、放电的速度。
It is the speed with which the ions can enter and leave the electrodes that governs how fast a battery can be charged and discharged.
新型电池的原理和锂离子电池的原理相同,都是通通过在充电电极和放电电极之间移动钠离子或钾离子进行能量的存储和利用。相比较之下,这种电池是非常便宜的。
It relies on the same principle employed in lithium-ion batteries-moving sodium or potassium ions between electrodes during charging and discharging-but does it much more cheaply.
Schindall又解释说,超级电容在接收或释放电涌方面却非常有效,这使得其他们可以和锂离子电池很好的配合。
Ultracapacitors are very effective, however, at accepting or delivering a sudden surge of energy, and that makes them a good partner for lithium-ion batteries, Schindall explained.
实验表明,这种微波放电装置是产生长程均匀放电激光等离子体柱的一种有效方法。
The experiment results show that this microwave discharge design is adequate to excite long uniform plasma column for gas lasers.
结果表明,等离子体在壁处的反射系数约为0.59,变换工作气体后,在第一次放电的等离子体中,由壁释放的同位素含量约占65%。
The results show that the reflection coefficient near the wall is about 0. 59, and in the plasma of the first discharge after a gas change, the wall-released isotope amount to 65% .
一种新的镀膜技术——电弧放电离子镀研制成功。
A new coating technology, arc discharge ion plating has been developed.
利用液中放电等离子体技术对TNT模拟废水进行降解研究。
Degradation of TNT wastewater by the electro - hydraulic discharge plasma technique was investigated.
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.
研究了锂离子电池大电流放电性能。
High discharge current performance of lithium ion bettery is introduced.
当电池放电时,锂离子和电子将自发地做单向运动,从而产生电流释放能量。
When the battery is discharging, both ions and electrons travel spontaneously in one direction, creating a current and releasing energy.
在采用双辉光放电实施的离子渗金属加工中,存在强烈的边角效应。
There are strong edge effects in the production of element diffusion into metal by double glow discharge.
研究了接触辉光放电等离子体降解水体中的酸性品红。
The degradation of Fuchsin acid in aqueous solution by contact glow discharge electrolysis is investigated.
模拟实验给出了不同气隙情况下,空载和负载放电时,等离子体区的杂散场和铁芯磁化曲线测试结果。
Measurements of stray field within the plasma region and magnetizing curve of the iron core were made in a model device with variation of air gap size and under load and unload discharge conditions.
研究了在热阴极辉光放电等离子体化学气相沉积金刚石膜过程中,热阴极辉光放电特性与金刚石膜沉积工艺的关系。
The relation between characteristics of hot cathode glow discharge and diamond film deposition techniques in hot cathode glow discharge plasma chemical vapor deposition process was discussed.
本文祥细分析了溅射型空心阴极放电(SHCD)铜离子激光器的放电、溅射特性和粒子的相互作用过程,建立了放电模型。
A discharge model on the sputtering hollow cathode discharge (SHCD) copper ion laser is established, its characteristics of discharge, sputtering and the particle interaction processes are analysed.
用实验方法研究了正、负离子背景对放电路径的影响。
The effects of the positive and negative ion background on the discharge path are studied.
采用蒙特卡罗方法对氮气辉光放电等离子体阴极区离子(N +2)的运输过程进行了模拟。
The ion (n + 2) transport process in cathode dark space of nitrogen glow discharge plasma is studied by using Monte Carlo Simulatoon.
采用蒙特卡罗方法对氮气辉光放电等离子体阴极区离子(N +2)的运输过程进行了模拟。
The ion (n + 2) transport process in cathode dark space of nitrogen glow discharge plasma is studied by using Monte Carlo Simulatoon.
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