A Study of the Corrosion Behavior of Engineering Mild Steel in Acidified and Hydrolyzed Extracts of Zingiber Officinale (Ginger)

Middle East Research Journal of Biological Sciences Pub Date : 2023-11-30 DOI:10.36348/merjbs.2023.v03i03.005

Nwangbo T. N, Idenyi N. E, Idu K. H

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Abstract

We report the use of weight loss technique in the study of the corrosion behaviour of engineering mild steel in acidified and hydrolysed corrosion media using Zingiber officinale (Ginger) extracts. Cylindrical steel rods were cut into corrosion coupons of predetermined dimensions of 15 mm by 10mm diameter. The coupons were then weighed before being suspended in situ in fours into beakers containing 10 mL, 15 mL and 20 mL of the extracts in 0.5 M and 1.0 M concentrations of H2SO4 and NaOH respectively. These setups were allowed to stand for a period of 28 days with a coupon withdrawn from each beaker after every 7 days, processed according to standard procedures before reweighing. The data of the weight loss were recorded and computations of the corrosion penetration rate using the formula; CPR=K∆W/ρA∆t were calculated. Plots of corrosion penetration rate against time, inhibition efficiency against concentration of extract and Langmuir adsorption isotherms were then plotted. The results obtained revealed that the corrosion rate profiles for passivating metals in which there is an initial sharp rise in corrosion rate, followed by a progressive decline as exposure time increased were observed. The inhibition efficiencies of the extract in the various media also showed significant increase in all the media. The Langmuir adsorption isotherms indicated that the adsorption of the molecules of the extract on the metal surface was uniformly distributed over the entire metal surface and also the adsorptive forces were strong enough to cause effective adhesion to prevent further corrosion attack. In conclusion, it was established that Zingiber officinale leaf extracts are good inhibitors of corrosion and that the inhibitive potency of the extract increases with increase in the concentrations of the extract and the corrosion media as exposure time increased, with the extract showing better inhibition characteristics in NaOH than H2SO4.

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工程低碳钢在酸化和水解生姜提取物中的腐蚀行为研究

我们报告了在使用生姜提取物研究工程低碳钢在酸化和水解腐蚀介质中的腐蚀行为时使用失重技术的情况。圆柱形钢棒被切割成预定尺寸的腐蚀试样，直径为 15 毫米 x 10 毫米。然后对试样进行称重，再将试样原地悬浮在四个烧杯中，烧杯中分别装有 10 mL、15 mL 和 20 mL 的提取物，提取物的浓度分别为 0.5 M 和 1.0 M 的 H2SO4 和 NaOH。这些装置放置 28 天，每隔 7 天从每个烧杯中取出一个试样，按照标准程序处理后重新称重。记录重量损失数据，并使用公式计算腐蚀渗透率；CPR=KΔW/ρAΔt。然后绘制了腐蚀渗透率与时间的关系图、抑制效率与提取物浓度的关系图和朗缪尔吸附等温线图。结果表明，钝化金属的腐蚀速率曲线图显示，腐蚀速率最初急剧上升，随后随着暴露时间的增加而逐渐下降。提取物在各种介质中的抑制效率在所有介质中也都有显著提高。朗缪尔吸附等温线表明，金属表面对萃取物分子的吸附均匀地分布在整个金属表面上，而且吸附力足够强，能够产生有效的附着力，防止进一步的腐蚀侵蚀。总之，研究证实了细辛叶提取物是一种良好的腐蚀抑制剂，随着提取物浓度的增加和腐蚀介质暴露时间的延长，提取物的抑制效力也随之增加，在 NaOH 中的抑制特性优于 H2SO4。

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Middle East Research Journal of Biological Sciences

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