Corrosion inhibition performance of tannins for mild steel in hydrochloric acid solution
The corrosion inhibition behavior of commercial hydrolysable tannin(tara tannin),condensed tannin(black wattle tannin)and complex tannin(bayberry tannin)for mild steel in hydrochloric acid were investigated by means of gravimetric and electrochemical measurements.The inhibition efficiency increased with the increase of tannin concentration,and the inhibition performance of tannin followed hydrolysable tannin > complex tannin > condensed tannin.The pH of bulk solution has a significant impact on the inhibition behavior of tannin.Tannins exhibited high inhibition performance at low pH(0.3),but the corrosion rate slightly increased when pH>2 for hydrolysable tannin,pH > 3 for condensed tannin and complex tannin.Surface analysis revealed the formation of a protective compact inhibition film at pH 0.3 whereas loose cracked film at pH 5.0 on the mild steel surface.The loose cracked film was deposition of ferric-tannates characterized by FTIR.Polarization experiments showed tannins act as mixed-type inhibitor with predominant anodic depression for hydrolysable tannin and cathodal depression for condensed tannin and complex tannin.EIS results indicated the increase of charge transfer resistance in the presence of tannins in 0.5 M HCl supporting the formation of a protective film on mild steel surface.Quantum chemical calculations predicted the higher inhibition performance of hydrolysable tannin based on the electronic properties of the molecular model.Molecular dynamic simulation(Material Studio 6.0)revealed a nearly flat configuration for the hydrolysable tannin model molecule on a metal surface with more negative adsorption energies,as confirmed by the experiments.
Baohua Zhao Weimo Han Wenhua Zhang Bi Shi
The Key Laboratory of Leather Chemistry and Engineering of Ministry of Education,Sichuan University, National Engineering Laboratory for Clean Technology of Leather Manufacture,Sichuan University,Cheng
国内会议
第九届国际分子模拟与信息技术应用学术会议(ICMS&I2018)
太原
英文
209-224
2018-05-01(万方平台首次上网日期,不代表论文的发表时间)