说明:双击或选中下面任意单词,将显示该词的音标、读音、翻译等;选中中文或多个词,将显示翻译。
您的位置:首页 -> 词典 -> pH-电位图
1)  pH-potential diagram
pH-电位图
2)  potential-pH diagram
电位-pH图
1.
The reaction equilibrium and potential-pH formulas of the In2S3-H2O system are given and the potential-pH diagrams of the system at 25 ℃and 150 ℃ are drawn based on thermodynamic calculation.
通过热力学计算,给出了In2S3-H2O系的反应平衡式及电位-pH的关系式,并绘制了25℃和150℃下In2S3-H2O系的电位-pH图,为含硫化铟的矿物高温氧化浸出提供了一定的热力学数据。
2.
The potential-pH diagram of RE-H2O was also used to investigate the chemical stability of various kinds of RE compound.
热力学计算及电位-pH图表明Ce3+在有氧时可被氧化成沉淀倾向更强的Ce4+,在酸性溶液中Ce4+化合物的稳定性要高于La3+化合物,因此Ce3+的缓蚀效果要好于La3+。
3)  E-pH diagram
电位-pH图
1.
With the thermodynamic analysis and E-pH diagrams for Fe-H_2O,Pd-H_2O and Fe-NH_4~+-H_2O,the thermodynamic analysis for electrodepositing Fe-Pd alloy from the solution was systemically carried out.
7H2O,Pd(NH3)2Cl2和导电盐(NH4)2SO4所组成的溶液体系为研究对象,基于溶液各组成同时处于平衡的热力学原理,通过对Fe-H2O系、Pd-H2O系和Fe-NH4+-H2O系三种体系的热力学分析与计算及其电位-pH图的绘制与分析,对电沉积Pd-Fe合金的溶液进行了较为系统的热力学分析。
4)  Eh-pH diagram
电位-pH图
1.
The significance and application of Eh-pH diagram were reviewed in detail.
阐述了电位-pH图的意义及应用,比较了绘制理论电位-pH图和实验电位-pH图的优劣,着重阐述了理论电位-pH图的绘制步骤及方法,列出了与电位-pH图绘制有关的4类反应。
5)  potential-pH plot
电位-pH图
1.
Basing on many former researchful works, the technology and mechanism of electrodeposition on Pd-Fe alloy film are investigated in our experiments, including the following several main aspects:Firstly, potential-pH plots of Fe-H2O.
绘制了Fe-H_2O系、Pd-H_2O系和Fe-NH_4~+-H_2O系的电位-pH图,进行了相关的热力学分析。
2.
Process and mechanism of electrodeposited Zn-Fe-Si02 composite coatings were studied, including some contents as follow:Potential-pH plots of Zn-H2O and Fe-H2O systems were drawn, and the thermomechanical analysis was made.
本文研究了电沉积Zn-Fe-SiO_2复合镀层的工艺和机理,主要包括以下几个方面: 绘制了Zn-H-2O系和Pe-H_2O系的电位-pH图,并对其进行了热力学分析,结果表明,锌和铁发生共沉积的区域很大,这就对电沉积Zn-Fe合金的可能性提供了理论依据,但是锌和铁的平衡电位差别较大,所以,必须在镀液中添入一定量的配合剂才能使锌铁产生共沉积。
6)  potential/PH diagram
电位/pH图
补充资料:酸度-电位图
分子式:
CAS号:

性质:水介质中,溶质(或污染物)存在的化学形态(或称化学状态)用图示法来表示其氧化还原电位(pE)与酸碱平衡之间关系的一种方法。绘制出各类水质(如河水、湖水、海水、地下水、土壤积水等)的pH-pE图,可反映不同水质区域的氧化还原特性。氧化性最强的是与大气接触的高氧区,它代表了大多数河流、湖泊和海洋的表层情况;还原性最强的是富含有机物的缺氧区,它代表了水体底泥和湖、海底层水的情况;在这两个区域之间的区域,基本上不含氧,有机物较丰富,如沼泽水等。

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