By oxidation - reduction reaction, copper is cemented into the iron.
经氧化 ― 还原反应, 铜渗入铁中.
The reduction cleaves the weak N - O bond.
这种还原反应致使弱的N-O键开裂.
Each electrode is impregnated with a catalyst to speed the oxidation reduction or half reaction.
每个电极掺入催化剂,以加重电池半氧化或还原反应.
Oxidation - reduction reactions are important in the solubilization and precipitation of iron and manganese.
氧化还原反应在铁和锰的增溶和沉淀中具有重要作用.
A new algebraic method of balancing redox reaction formulas is introduced.
介绍一种适用于各类氧化还原反应方程式配平的方法——新代数法.
However , when the ORP is between - 300 mV and - 400 mV, sulfate reducing bacteria are predominant.
氧化还原电位为 -300 ~-400mV时, 硫酸盐还原反应占优势地位.
The equation of reaction rate were redefined in this paper.
本文定义了还原反应速率的计算式.
Mechanism model of reduction reaction was build.
为该反应体系建立了碳热还原反应机理模型.
The effects of electrode activation condition, current density, electrolyte temperature on electrolytic reduction are discussed.
讨论了电极活化条件 、 电流密度 、 电解液温度等因素对电解还原反应的影响.
In this work, compared with acid - base reaction, we discussed the conjugated relation of redox reaction.
本文从共轭关系的角度出发, 与酸碱反应相对照, 较详细地讨论了氧化还原反应中的共轭关系.
The cathodic reduction is stronger and plays an important role for the dissolution of chalcopyrite.
黄铜矿的阴极还原反应较强烈,且对黄铜矿氧化浸出具有重要意义.
The GNFs show excellent electrocatalytic activity toward the oxidation of methanol and the reduction of oxygen.
在甲醇的氧化和氧气的还原反应中,金纳米花显示出优良的电催化活性.
The method and skill for balancing a complex oxid - reduction reaction equation are discussed in this paper.
本文介绍复杂氧化还原反应式配平的方法和技巧.
The controlling - velocity step for the enantioselective reduction is the decomposition of the B - O - B - N 4 - numbered ring.
该不对称催化还原反应的控制步骤是催化剂 - 烷氧基硼烷加合物的B -O-B-N 四元环的离解.
Three steps are total number of rising and dropping oxidation number to balance equation.
配平氧化还原反应方程式的原则是:还原剂氧化数升高的数值等于氧化剂氧化数降低的数值.