1) specific surface capacitance
比表面电容量
2) specific capacitance
比电容量
1.
The influences of the mass ratio of KOH to petroleum coke、microwave radiation power and time on the pore size distribution of the activated carbon and the specific capacitance of EDLC were studied.
研究了石油焦与KOH活化剂的比例、微波功率以及微波辐照时间对活性炭孔径分布和比电容量的影响。
2.
It shows that the specific capacitance of coal based AC can reach 286.
研究了KOH与煤比例、微波功率和辐射时间对活性炭比电容量的影响,并考察了煤基活性炭双电层电容器的充放电特性。
3.
A low-cost organic compound comprising mainly polyarylate was selected as precursor and a chemical activation method was used to prepare an activated carbon material of large surface area,with which the activated carbon electrodes of high specific capacitance were fabricated for supercapacitor.
考察了活化温度对活性炭电极比电容量的影响,研究了活性炭材料的比表面积和孔结构与活性炭电极的充放电性能之间的关系,并对活性碳电极进行了电化学表征。
3) capacity surface area
容量表面积
1.
The desicication dynamics of capacity surface area of the seeds at low temperature has been investigated,thd emperical formula of desilication dynamics at low temperature and the curved equation of desilication time with SiO 2 content in solution have been established,and also the seed selection and circulating use have been studied.
研究了晶种容量表面积的低温脱硅动力学,建立了低温脱硅动力学的经验公式及溶液中SiO2 含量与脱硅时间的曲线方程,探索了晶种的选择及晶种的循环利用。
2.
The desilicon dynamics of crystal seed capacity surface area at low temperature is studied in this paper,the empirical formula of low temperature desilicon dynamics and the curve education between the content of SiO2, and desilicon time are obtained.
研究了品种容量表面积的低温脱硅动力学,建立了低温脱硅动力学的经验公式及溶液中SiO2含量与脱硅时间的曲线方程,探索了晶种的选择及品种的循环利用。
4) specific discharge capacity
放电比容量
5) surface-capacitive
表面电容式
1.
This article serves as a how-to guide to selecting and integrating a surface-capacitive touch-screen controller and software.
本文将讲述如何选择表面电容式触摸屏的控制器,以及如何集成控制器及其相应的软件。
6) surface capacitor
表面电容器
补充资料:电容量
分子式:
CAS号:
性质:电容器加上电压后贮存电荷的能力,以所贮存电荷与所加电压之比值表示。电容量大小与电极面积,介质厚度和介电常数有关,平板电容器的电容量关系式为:C=εs/d=ε0εrs/d。式中,C为电容量;ε为介质的介电常数;εr为介质相对介电常数;ε0为真空介电常数。电容量单位常μF(微法)和pF(皮法;微微法)。陶瓷材料和其他材料相比,一般具有高介电常数的特点,因此电容量大。故常采用陶瓷作为电容器的介质材料,即陶瓷电容器。
CAS号:
性质:电容器加上电压后贮存电荷的能力,以所贮存电荷与所加电压之比值表示。电容量大小与电极面积,介质厚度和介电常数有关,平板电容器的电容量关系式为:C=εs/d=ε0εrs/d。式中,C为电容量;ε为介质的介电常数;εr为介质相对介电常数;ε0为真空介电常数。电容量单位常μF(微法)和pF(皮法;微微法)。陶瓷材料和其他材料相比,一般具有高介电常数的特点,因此电容量大。故常采用陶瓷作为电容器的介质材料,即陶瓷电容器。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条