Sami Masadeh, Shadi Al khateeb, Almontaser Bellah Ajlouni
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引用次数: 0
摘要
为了抑制 AISI 304 不锈钢(SS)的点蚀,本研究首次探讨了在 0.5 M 氯化铁溶液中添加不同比例乳香的效果。通过电化学噪声(EN)测试(记录 10000 秒的电流和电位噪声)和电位极化,对样品的点蚀敏感性进行了研究。使用功率谱密度(PSD)对 EN 数据的频域进行了分析。在氯化铁溶液中添加乳香可有效减少 AISI 304 SS 的点腐蚀。随着乳香添加量的增加,测试期间的电流噪声波动较大,振幅逐渐减小,正电势增大,电流值降低,频谱噪声和噪声阻抗降低,由此得出点蚀抑制的结论。光学显微镜图像显示,添加乳香可抑制点蚀,每平方毫米的点蚀数量和大小都有所减少。乳香添加量为 10 wt.%时,凹坑大小和凹坑平方毫米数明显减少。这是因为不锈钢表面吸附了抑制剂,抑制了氯离子的吸附。此外,乳香的添加还降低了腐蚀电流,并正向提高了腐蚀电位。
Enhancing pitting corrosion inhibition of AISI 304 stainless steel using a green frankincense-modified ferric chloride solution
To inhibit pitting corrosion of AISI 304 stainless steel (SS), the effect of different percentages of frankincense addition to a 0.5 M ferric chloride solution was explored in this work for the first time. The samples were investigated for pitting corrosion susceptibility via electrochemical noise (EN) tests, where the current and potential noises were recorded for 10000 seconds, and potentiodynamic polarization. The frequency domain of EN data was analyzed using power spectral density (PSD). Frankincense addition to the ferric chloride solution effectively reduced the pitting corrosion of AISI 304 SS. The pitting inhibition was concluded from the high fluctuations in current noises over the test period, its decreasing amplitude, the greater positive potential, the lower current values, and the lower spectral noise and noise resistances with increasing frankincense additions. Optical microscope images supported pitting inhibition with frankincense addition, where pits decreased in number per mm2 and size. A significant decrease in the pit size and pits mm−2 was observed with the 10 wt.% frankincense addition. It was attributed to the adsorption of the inhibitor on the stainless steel surface, inhibiting the adsorption of chloride ions. Additionally, frankincense addition reduced the corrosion current and increased the corrosion potential positively.
期刊介绍:
Material Sciences-Poland is an interdisciplinary journal devoted to experimental research into results on the relationships between structure, processing, properties, technology, and uses of materials. Original research articles and review can be only submitted.