Aqueous Black Seed (Nigella sativa L.) Extract-Mediated Corrosion Inhibition in Mild Steel Exposed to 3.5% NaCl: Effect of Temperature, pH, Time, and In Situ Analysis Using Atomic Force Microscopy

IF 1.6 4区 材料科学 Q2 Materials Science
Sangeetha Jayakumar, Mohammed Jouhar, Fouzia Khan, M. Vadivel, T. Nandakumar, B. B. Lahiri, John Philip
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Abstract

Atomic force microscopy (AFM)-based analysis on the corrosion inhibition properties of aqueous black seed extract for mild steel exposed to 3.5% NaCl solution is reported here. At ~ 600 ppm inhibitor concentration, corrosion rate and inhibition efficiency are found to be ~ 0.18 ± 0.1 mpy and ~ 94%, respectively. The superior corrosion inhibition is due to the adsorption of the phytochemicals onto the metallic surface, as confirmed from spectroscopic analysis. Findings show the suitability of the black seed extract for practical applications at neutral pH and room temperature. AFM and magnetic force microscopy indicate lower surface roughness and nearly pristine topography for the inhibitor-protected specimens. In situ AFM analyses indicate delayed formation of surface irregularities for the inhibitor-protected specimens. The obtained results clearly show the superior corrosion inhibition efficiency of the aqueous black seed extract against mild steel under simulated sea water condition.

Abstract Image

黑籽(Nigella sativa L.)水萃取物在暴露于 3.5% NaCl 的低碳钢中的缓蚀作用:温度、pH 值、时间和原子力显微镜现场分析的影响
本文报告了基于原子力显微镜(AFM)的黑种子水提取物对暴露在 3.5% NaCl 溶液中的低碳钢的缓蚀特性分析。在抑制剂浓度为 ~ 600 ppm 时,腐蚀速率和抑制效率分别为 ~ 0.18 ± 0.1 mpy 和 ~ 94%。光谱分析证实,卓越的缓蚀效果是由于植物化学物质在金属表面的吸附作用。研究结果表明,黑籽提取物适合在中性 pH 值和室温条件下实际应用。原子力显微镜和磁力显微镜显示,受抑制剂保护的试样表面粗糙度较低,形貌近乎原始。原位原子力显微镜分析表明,受抑制剂保护的试样表面不规则的形成时间较晚。这些结果清楚地表明,在模拟海水条件下,黑籽提取物水溶液对低碳钢具有卓越的缓蚀效果。
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来源期刊
Transactions of The Indian Institute of Metals
Transactions of The Indian Institute of Metals Materials Science-Metals and Alloys
CiteScore
2.60
自引率
6.20%
发文量
3
期刊介绍: Transactions of the Indian Institute of Metals publishes original research articles and reviews on ferrous and non-ferrous process metallurgy, structural and functional materials development, physical, chemical and mechanical metallurgy, welding science and technology, metal forming, particulate technologies, surface engineering, characterization of materials, thermodynamics and kinetics, materials modelling and other allied branches of Metallurgy and Materials Engineering. Transactions of the Indian Institute of Metals also serves as a forum for rapid publication of recent advances in all the branches of Metallurgy and Materials Engineering. The technical content of the journal is scrutinized by the Editorial Board composed of experts from various disciplines of Metallurgy and Materials Engineering. Editorial Advisory Board provides valuable advice on technical matters related to the publication of Transactions.
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