overpotential
基本解釋
- n. [電] 過電壓;[電] 超電勢
英漢例句
- One dimensional overpotential distribution equation along the direction of the bed thickness is formulated.
建立了固定床內(nèi)超電位沿床層厚度方向的一維分布方程。 - The results show that the overpotential increases while the resistivity decreases with increase of the oxygen content.
反之氧流量較低時(shí),電阻率較大,過電位較小,表面較粗糙。 - The industrial results show that the cathodic overpotential is essential to the electrolyte characteristics.
研究結(jié)果表明: 陰極過電位是電解液性質(zhì)的實(shí)時(shí)反映, 通過陰極過電位的工業(yè)監(jiān)控可得出不同電解條件時(shí), 添加劑最佳量的控制, 從而在復(fù)雜銅電解過程中使高純陰極銅生產(chǎn)的穩(wěn)定性提高了6%25; - Results show destruction rate of anode is affected to certain degree by oxygen evolution overpotential.
從試驗(yàn)結(jié)果來看,氧析出過電位對陽極的破損速率存在著一定的影響。 - It was observed that the deposition of zinc on the substrate did not undergo the UPD process before its overpotential deposition occurred.
在本實(shí)驗(yàn)條件下, 成熟晶核的生長受溶液中鋅離子的擴(kuò)散所控制, 而晶核形成的機(jī)理依有無添加劑存在而異。
詞組短語
- anodic overpotential 陽極過電位
- overpotential test 過電壓試驗(yàn)
- large overpotential 大過電位
- activation overpotential 活化過電位;活化過電壓
- hydrogen overpotential [化學(xué)]氫過電位;氫超電勢;翻譯
短語
專業(yè)釋義
- 過電位
Indium had characteristic of low electrical resistivity, high deformation, high chemical stability and high hydrogen evolution overpotential.
銦具有低的電阻率、高的可塑性、高的析氫過電位和高的化學(xué)穩(wěn)定性。 - 過電勢
- 過電位
Anodic overpotential is one of the main reasons for low efficiency of industrial water electrolysis. Therefore , the study of anode material with high activity, long life, low-cost has a practical significance for large-scale industrial electrolysis hydrogen.
電解水制氫過程無污染,且可循環(huán)使用,有著很大的發(fā)展?jié)摿?陽極過電位是水電解工業(yè)能量轉(zhuǎn)換效率較低的主要原因之一,因此研究高活性、長壽命、低成本的陽極材料對大規(guī)模工業(yè)化電解制氫具有節(jié)能增效的現(xiàn)實(shí)意義。 - 超電勢
The electrocrystallization of nickel on magnesium alloy is described by the mechanism of continuous nucleation. With the increase of deposition overpotential,the crystal nucleus dots will be raised rapidly.
4.鎂合金電沉積鎳是連續(xù)形核的電沉積機(jī)理,超電勢增加時(shí),晶核數(shù)迅速增加。能源科學(xué)技術(shù)
- 超電勢
The component design and optimization proceeds from the respects of wettability, overpotential, resistance, melting point, melting range and so on.
論文從制備的釬料合金的潤濕性能、超電勢問題、釬料電阻、熔點(diǎn)和釬料斷裂等方面,對釬料的性能進(jìn)行分析,進(jìn)而優(yōu)化釬料的成分。動力與電氣工程
- 超電勢
- 過電位
- 超電位
- 過電壓
- 超電勢