{"title":"Transpassive and abnormal dissolution of titanium electrodes in hydrofluoric acid aqueous solution","authors":"R. Nurdillayeva, Sh. Dauletuly, A. Bayeshov","doi":"10.51580/2023-1.2710-1185.04","DOIUrl":null,"url":null,"abstract":"One of the urgent problems of electrochemistry is the reuse of production waste of a relatively expensive metal – titanium, which is in great demand in mechanical, aircraft engineering, medicine, and nanotechnology. The purpose of this work is to study the abnormal cathodic and transpassive anodic dissolution behavior of a titanium electrode in an aqueous hydrofluoric acid solution. Methodology. The anode and cathode spaces are separated by an anion exchange membrane. As a result of the electrochemical dissolution of titanium Ti4+ ions are formed in the anode space, and Ti3+ ions are formed in the cathode space due to the chemical dissolution of titanium. The influence of the main electrochemical parameters on the titanium dissolution process in the anode and cathode spaces has been studied. Results and discussions. The current efficiency of titanium anodic dissolution slowly increased with increasing current density, and its maximum value (82.5%) was observed at a current density of 800 A/m2. With an increase in the concentration of hydrogen fluoride, the current efficiency rapidly increased, and its maximum value at a current density of 200 A/m2 was determined at a concentration of 0.6 mol/l and was equal to 78.1%. Titanium dissolves forming Ti3+ ions along with Ti4+ ions in the anode space with an increase in the electrolyte temperature. The current efficiency of Ti4+ ions decreases while sharply increasing for Ti3+ ions. Conclusion. The optimal conditions for transpassive anodic and anomalous cathodic dissolution of a titanium electrode in an aqueous solution of hydrofluoric acid and the kinetic parameters of the electrode process are determined.","PeriodicalId":9856,"journal":{"name":"Chemical Journal of Kazakhstan","volume":null,"pages":null},"PeriodicalIF":0.0000,"publicationDate":"2023-03-30","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Chemical Journal of Kazakhstan","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.51580/2023-1.2710-1185.04","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 0
Abstract
One of the urgent problems of electrochemistry is the reuse of production waste of a relatively expensive metal – titanium, which is in great demand in mechanical, aircraft engineering, medicine, and nanotechnology. The purpose of this work is to study the abnormal cathodic and transpassive anodic dissolution behavior of a titanium electrode in an aqueous hydrofluoric acid solution. Methodology. The anode and cathode spaces are separated by an anion exchange membrane. As a result of the electrochemical dissolution of titanium Ti4+ ions are formed in the anode space, and Ti3+ ions are formed in the cathode space due to the chemical dissolution of titanium. The influence of the main electrochemical parameters on the titanium dissolution process in the anode and cathode spaces has been studied. Results and discussions. The current efficiency of titanium anodic dissolution slowly increased with increasing current density, and its maximum value (82.5%) was observed at a current density of 800 A/m2. With an increase in the concentration of hydrogen fluoride, the current efficiency rapidly increased, and its maximum value at a current density of 200 A/m2 was determined at a concentration of 0.6 mol/l and was equal to 78.1%. Titanium dissolves forming Ti3+ ions along with Ti4+ ions in the anode space with an increase in the electrolyte temperature. The current efficiency of Ti4+ ions decreases while sharply increasing for Ti3+ ions. Conclusion. The optimal conditions for transpassive anodic and anomalous cathodic dissolution of a titanium electrode in an aqueous solution of hydrofluoric acid and the kinetic parameters of the electrode process are determined.
钛是一种相对昂贵的金属,在机械、航空工程、医学和纳米技术等领域都有很大的需求,其生产废料的再利用是电化学领域的一个紧迫问题。本研究的目的是研究钛电极在氢氟酸水溶液中的异常阴极和透阳极溶解行为。方法。阳极和阴极空间由阴离子交换膜隔开。由于钛的电化学溶解在阳极空间形成Ti4+离子,由于钛的化学溶解在阴极空间形成Ti3+离子。研究了主要电化学参数对钛在阳极和阴极空间溶解过程的影响。结果和讨论。钛阳极溶解的电流效率随着电流密度的增加而缓慢增加,在电流密度为800 a /m2时达到最大值(82.5%)。随着氟化氢浓度的增加,电流效率迅速提高,在浓度为0.6 mol/l时,电流密度为200 a /m2时电流效率达到最大值,为78.1%。随着电解液温度的升高,钛在阳极空间中溶解形成Ti3+离子和Ti4+离子。Ti4+离子的电流效率降低,Ti3+离子的电流效率急剧提高。结论。确定了钛电极在氢氟酸水溶液中通过阳极和异常阴极溶解的最佳条件以及电极过程的动力学参数。