孔径随着电解液浓度的增大而减小,且基本满足负对数关系。
The pore diameter increased as the electrolyte concentration reducing, and both basically meet the negative logarithmic relationship.
增加硫酸电解液浓度,开路电位正移,升高温度有利于反应进行。
The origination potential of oxygen reduction reaction being more positive, larger electrolyte concentration and higher temperature could promote the reaction.
而增大炭材料的孔径或电解液浓度,可明显减弱甚至消除扩散层对电容的影响。
But, the effect of diffusible double-layer on double layer capacitance is re-duced and even eliminated through increasing pore sizes of carbon electrodes or electrolyte concentration.
电解液浓度,氧化电压和氧化时间等参数,对膜层的形貌都有不同程度的影响。
The parameters such as the electrolyte concentration, oxidation voltage and oxidation time reveal different impacts on the morphology of the coatings.
发现在非饱和浓度下生长的沉积物生长形貌受电解液浓度和滤纸纤维影响,外加磁场对其形貌的影响不明显。
It was found that the concentration of electrolyte and the fibre of filter paper influenced strongly the morphology of Zn electrodeposits obtained in unsaturated electrolyte.
基于电化学理论和电解质溶液中的吸附理论,建立了包含电解液浓度、氧化电压和温度在内的实验参数动力学模型。
Based on the electrochemical theory and the theory of adsorption in electrolyte solution, a dynamic model is established, which contains the electrolyte concentration, applied voltage and temperature.
膨胀石墨对重油的吸附量随着膨胀容积的增大而增加,合适的电流密度、电解液浓度以及反应时间是制备高膨胀容积膨胀石墨的关键。
Adsorption quantity increases with the expanded volume. Appropriate current density, electrolyte concentration and reaction time are the keys to obtain high-expanded volume.
叙述了电解液浓度等对膜的水吸附性和允许透过水量的影响情形,及盐水中的杂质对膜性能的影响状况,为稳定发挥膜性能对操作条件作相应的调适。
Influence of electrolyte concentration on water adsorption capacity and allowable water permeability of membrane are described, as well as influence of impurities in brine on properties of membrane.
海水包含高浓度的离子,非常类似于电池的电解液。
Seawater has a high concentration of ions, much like the battery's electrolyte.
利用常规的滴定分析方法测定了电解液中各种离子的浓度,并利用气相色谱测定了电解气中的氧气纯度(体积分数)。
T he concentrations of ions in electrolyte were measured by normal analysis method, and the content of oxygen in electrolysis gas was measured by gas chromatography.
实验同时分析了加工参数如加工电压、电解液种类和浓度、加工材料等对冷却孔成形的影响。
The effects of such machining parameters as voltage, type and concentration of electrochemical fluid, materials etc on the cooling hole formation were also analyzed.
在不同VOSO4及H2SO4浓度的试验中发现处理后的电极在高浓度的电解液中具有良好的性能。
Meanwhile, the experiments of the concentration of H2SO4 and VOSO4 show that these treated electrodes have good performance in the electrolyte with high concentration.
电化学性能测试结果表明,水基电解液种类及浓度、电压范围、扫描速度、电流密度均对无定形V2O5电容性能产生影响。
Electrochemical results indicate that the kinds of the aqueous electrolyte, potential limit, scan rate, current density have influence on V2O5 capacitive performance.
隔膜电解法是我国主要烧碱制备方法之一,蒸发结晶系统是以去除电解液中氯化钠等杂质和提高烧碱浓度为主要目的的制烧碱关键工序。
The evaporation and crystallization is the key procedure in the preparation of caustic soda, aiming at the removal of NaCl and increasing the concentration of NaOH solution.
介绍了使用低浓度复合电解液,锻模的脉冲电流电解加工的设备及加工实例。
This is a introduction to the Pulse Current electrolytic machining of forging die equipment using low density compound electrolyte, and examples are also given.
影响PS版砂目结构的因素有交流电的电流密度、电压、波形、频率、电解液成分及其浓度和温度等。
The factors influencing the roughness of aluminium surface are current density, voltage, waveform, frequency, the component and concentration of the electrolyte and it's temperature.
结果发现,当转动电解液从碳纳米管膜的表面流过时,也会在膜的两端诱导出电势,该电势的大小与电解液的种类、转速、质量浓度和温度等有关。
It is indicated that the voltage was induced in the films when the rotational electrolytes flow on the carbon nanotube films surface due to electronic friction and electron drag effect.
结果发现,当转动电解液从碳纳米管膜的表面流过时,也会在膜的两端诱导出电势,该电势的大小与电解液的种类、转速、质量浓度和温度等有关。
It is indicated that the voltage was induced in the films when the rotational electrolytes flow on the carbon nanotube films surface due to electronic friction and electron drag effect.
应用推荐