利用转盘法研究氟化钠对柠檬酸溶液中金属钛溶解动力学的影响

IF 4.8 2区 材料科学 Q1 METALLURGY & METALLURGICAL ENGINEERING
Mahmoud Motasim , Salih Aydoğan , Tevfik Agacayak , Yasin Ramazan Eker , Amin El-gak , Ahmed A.S. Seifelnassr
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引用次数: 0

摘要

本研究报告了氟化钠对柠檬酸溶液中纯金属钛溶解动力学的影响。研究考察了氟化钠浓度、柠檬酸浓度、温度、搅拌速度和圆盘表面积的影响。钛的溶解速率随着柠檬酸和氟化钠浓度的增加而剧增。氟离子与氢离子反应生成氢氟酸,氢氟酸可去除二氧化钛的被动层。NaF 和酸浓度的增加会导致钛表面形成棕色层。X 射线衍射和 SEM-EDX 分析表明,该层的成分主要是氟化钛 (TiF) 和氟化钛氧化物 (TiOF)。活化能为 26.4 kJ/mol 的混合动力学模型可用于解释反应动力学。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The influence of sodium fluoride on the dissolution kinetics of metallic titanium in citric acid solution using the rotating disc method

This study reports the effect of sodium fluoride on the dissolution kinetics of pure metallic titanium in a citric acid solution. The effects of sodium fluoride concentration, citric acid concentration, temperature, stirring speed, and disc surface area were examined. The dissolution rate of titanium increases strongly with increasing citric acid and sodium fluoride concentrations. Fluoride ions react with hydrogen ions to form hydrofluoric acid, which removes the passive layer of titanium dioxide. An increase in the concentration of NaF and acid causes the formation of a brown layer on the surface of titanium. X-ray diffraction and SEM-EDX analyses showed that the layer composition is mostly of titanium fluoride (TiF3) and titanium fluoride oxide (TiOF2). A mixed kinetic model with an activation energy of 26.4 kJ/mol can be used to explain the reaction kinetics.

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来源期刊
Hydrometallurgy
Hydrometallurgy 工程技术-冶金工程
CiteScore
9.50
自引率
6.40%
发文量
144
审稿时长
3.4 months
期刊介绍: Hydrometallurgy aims to compile studies on novel processes, process design, chemistry, modelling, control, economics and interfaces between unit operations, and to provide a forum for discussions on case histories and operational difficulties. Topics covered include: leaching of metal values by chemical reagents or bacterial action at ambient or elevated pressures and temperatures; separation of solids from leach liquors; removal of impurities and recovery of metal values by precipitation, ion exchange, solvent extraction, gaseous reduction, cementation, electro-winning and electro-refining; pre-treatment of ores by roasting or chemical treatments such as halogenation or reduction; recycling of reagents and treatment of effluents.
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