在某些场合下,使用脉冲电流还可以减少氢的析出、提高阴极电流效率,从而减少针孔、条纹和氢脆等。
In some cases, the use of pulse current still can reduce the lumber, improve the hydrogen cathodic current efficiency, thus reduce pinhole, striped and hydrogen brittleness, etc.
搅拌状况:搅拌效果越好,电镀效率越高,有空气,水流,阴极摆动等搅拌方式。
Situation: mixing the better, electroplating mixing efficiency is high, the air, the water, the cathode have chemistry mixing way.
阴极电泳涂料由于其优异的耐蚀性能、的泳透力和库仓效率而广泛用作防锈底漆。
Cathodic electrophoretic coatings have been widely used as antirust undercoat for their excellent corrosion resistance high electrophoretic force and coulomb efficiency.
阴极电泳涂料由于其优异的耐蚀性能、的泳透力和库仓效率而广泛用作防锈底漆。
Cathodic electrophoretic coatings have been widely used as antirust undercoat for their excellent corrosion resistance, high electrophoretic force and coulomb efficiency.
该法既提高镀铬液的阴极电流效率又降低生产能耗,可获得光亮平滑、硬度高、结合力好的镀铬层。
It could help not only to increase the cathodic current efficiency of the chromium-plating solution, but also to obtain smooth appearance, high hardness and wearability of chromium electrodeposits.
并展望了今后的研究中重点关注通过改进阴极,改进电解装置等提高电脱氧效率。
The future research should focus on improving the cathode and improving the devices in order to improve the electrolysis efficiency.
对氧还原反应,发生在燃料电池的阴极地方创建作为其唯一的废水和它的存在,多达40燃料电池的效率是百分之丢失。
The oxygen reduction reaction that takes place at the fuel cell's cathode creates water as its only waste and it is there that up to 40 percent of a fuel cell's efficiency is lost.
电解法是制备铜粉的一种重要方法,铜粉的粒径和阴极的电流效率是其两个重要的指标。
Electrolytic process is an important method of producing copper powder, two important parameters of which are particle size of copper powder and efficiency of cathode current.
结果证明,热屏蔽层的应用有效地提高了空心阴极加热效率。
The result shows that heating efficiency of hollow cathode is effectively enhanced by using heat shield.
研究表明:明胶能增大阴极过电位,能提高阴极电流效率,提高电解液的比电阻。
The study shows that gelatin can increase cathodic superpotential, cathodic current efficiency and specific resistance.
结果表明:阴极扩散层碳粉载量(即厚度)增加,电池系统水损失量减少,甲醇法拉第效率和能量效率提高;
The results show that the increased carbon loadings of cathode GDL is helpful to reduce water loss and enhance methanol efficiency.
影响该方法电解效率的主要因素有:氧化物阴极导电性、O2-扩散、阴极电势、阳极材料。
The main influencing factors on electrolysis efficiency of the method were: oxide cathode conductivity, O2- diffusion, cathode potential, anode material.
铁离子配合剂zfc及添加剂zfa的加入,使阴极电流效率降低。
Addition of complexing agent Fe 2 + (ZFC) and additive ZFA will reduce the current efficiency.
阴极的平均量子效率15%,且短波响应与长波响应几乎相当。
Average quantum efficiency is 15% and short wavelength responses are almost equivalent to long wavelength ones.
结果表明,实验条件下脉冲电流阴极保护与直流阴极保护相比,二者的保护度相当,而脉冲电流阴极保护有更小的平均电流消耗和更高的保护效率。
The results show that compared with DC, SWPC can achieve the same protective property with less average current consumption, and has much higher protective efficiency.
电解槽寿命越长,电解槽的大修分摊成本越低;但随着电解槽槽龄增加,阴极压降的上升和电流效率的降低会造成吨铝电耗增加。
But the energy consumption will increases at the same time with the increase of pot life because of the increase of cathode voltage drops and of the decrease of current efficiency.
指出电解食盐水时可能发生的几种副反应,分析其对电流效率的影响,介绍利用副反应产物计算阴极电流效率的公式及其应用。
Some kinds of side reactions occurred during the electrolysis of brine were pointed out, and their influences on current efficiency were analyzed.
结果表明: 不同的电镀基材在硫酸铑体系中对其阴极极化的影响不明显; 以镍为基材镀铑时, 具有开路电势低、电流效率低、白度高、结合力好等特点;
The results show that lower open circuit potential and current efficiency, higher whiteness, better coating binding force were found when the substrate was nickel;
透射式光阴极的厚度,直接影响光阴极的光电子发射效率和光谱响应。
The thickness of transmission-mode photocathode affects directly its photoelectric efficiency and spectral response.
透射式光阴极的厚度,直接影响光阴极的光电子发射效率和光谱响应。
The thickness of transmission-mode photocathode affects directly its photoelectric efficiency and spectral response.
应用推荐