摘要
目的研究肉桂酸咪唑啉缓蚀剂在酸性介质中对N80钢的缓蚀性能。方法以肉桂酸和羟乙基乙二胺为原料,氧化铝为催化剂,采用溶剂法合成了肉桂酸咪唑啉化合物,利用紫外光谱和红外光谱等分析了产物的分子结构,利用静态失重法、动电位极化和交流阻抗等方法研究了咪唑啉缓蚀剂在盐酸介质中对N80钢的缓蚀性能,并对其缓蚀机理进行了初步探讨。结果静态失重法结果表明,缓蚀效率与缓蚀剂的质量浓度有关,当产物的质量浓度达到400 mg/L时,缓蚀效率趋于平稳,可达86.9%。腐蚀速率随着温度的增加而增加,温度在30~50℃时,咪唑啉具有良好的缓蚀效率。极化曲线研究结果表明,该缓蚀剂是控制阳极反应为主的混合型缓蚀剂,作用类型是几何覆盖效应。交流阻抗研究结果表明,该缓蚀剂对碳钢在盐酸介质中的腐蚀有明显的抑制作用,缓蚀效率随着缓蚀剂的质量浓度的增大而增大。结论肉桂酸咪唑啉是一种有效的缓蚀剂,能够明显抑制N80钢在盐酸介质中的腐蚀。
The work aims to study the inhibition performance of cinnamyl imidazoline as inhibitor of N80 steel in hydrochloric acid. A cinnamyl imidazoline was synthesized using solvent method, with cinnamic acid and N-hydroxyethyl - ethylenediamine as raw materials and aluminum oxide as catalyst. The molecular structure of the product was characterized by means of UV spectrum and IR spectroscopy. Inhibition performance of the imidazoline corrosion inhibitor of N80 steel in hydrochloric acid was studied by virtue of static weight-loss measurement, polarization curves and electrochemical impedance spectroscopy, and the corrosion inhibition mechanism was also discussed preliminarily. The results of weight-loss measurement indicated that inhibition efficiency of the investigated compound was found to depend on mass concentration of the inhibitor. The corrosion inhibition efficiency was stable and up to 86.9% as imidazoline mass concentration reached 400 mg/L. Corrosion rate increased with the increase of temperature, and the corrosion inhibitor had good inhibition efficiency when the temperature ranged from 30 ℃ to 50 ℃. The results of polarization curves indicated that the inhibitor was mixed-type inhibitor which worked to control anodic reaction with geometric blanketing effect. The analysis of electrochemical impedance spectroscopy implied that the inhibition efficiency increased with the increase of corrosion inhibitor mass concentration and suppressed corrosion of carbon steel in HCl medium significantly. Cinnamyl imidazoline is an effective corrosion inhibitor of N80 steel in HCl medium.
出处
《表面技术》
EI
CAS
CSCD
北大核心
2017年第1期182-186,共5页
Surface Technology
基金
陕西省科技统筹创新工程计划项目(2014KTCL01-11)~~
关键词
咪唑啉
溶剂法
碳铜
缓蚀剂
失重法
电化学方法
imidazoline
solvent method
mild steel
corrosion inhibitor
weight loss method
electrochemical method