Dual functional Coatings: Comparative Study of Corrosion Indicators for Corrosion Reporting and Self-healing on MgAZ31 Alloy

IF 5.8 2区材料科学 Q2 CHEMISTRY, PHYSICAL

Journal of Alloys and Compounds Pub Date : 2025-05-05 DOI:10.1016/j.jallcom.2025.180755

Ramay Patra, B. Vijay, K.R.C. Soma Raju, K.V. Gobi, R. Subasri

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Abstract

The current study presents a comparative evaluation of the corrosion-sensing and the inherent corrosion inhibition performance of sol-gel-based smart coatings on Mg AZ31 alloy, using three distinct active materials such as phenolphthalein (PhPh), 8-hydroxyquinoline (8HQ), and fluorescein (FLUO). Direct incorporation of 2% PhPh in the sol-gel matrix provided early corrosion indication with moderate inhibition. However long-term performance could not be expected from this coating, as PhPh would leach out of the coating with time or degrade under sunlight. Therefore, all active materials were encapsulated within halloysite nanotube (HNT) smart containers and incorporated into the sol-gel matrix, which was subsequently applied onto Mg alloy substrate. Though the encapsulation of PhPh within HNT could not provide corrosion indication on Mg alloy due to the encapsulation under acidic condition, encapsulated 8HQ and FLUO based coatings demonstrated significant potential for corrosion sensing and inhibition. Confocal microscopy images, after 1 h salt spray, revealed distinct fluorescence signals, with 8HQ (a metal ion indicator) based coating localizing its signal within scribed areas and FLUO (a pH indicator) based coating producing signals at scratch edges. FLUO exhibited superior fluorescence intensity due to its higher quantum yield when compared to 8HQ. Further, FLUO based coating achieved a higher charge transfer resistance of 1.3 ×106 Ohm·cm² when compared to 8HQ based coating (3.8 ×105 Ohm·cm²) providing better corrosion inhibition. In conclusion, while PhPh was found to be unsuitable for corrosion sensing with encapsulation into HNT, FLUO@HNT demonstrated a superior performance as both a corrosion indicator and inhibitor, outperforming 8HQ@HNT in fluorescence intensity and barrier-forming efficacy.

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双功能涂层：MgAZ31合金腐蚀报告和自愈指标的比较研究

本研究采用三种不同的活性材料，如酚酞（PhPh）、8-羟基喹啉（8HQ）和荧光素（FLUO），对Mg AZ31合金的溶胶-凝胶型智能涂层的腐蚀感知和固有缓蚀性能进行了比较评估。在溶胶-凝胶基质中直接掺入2% ph可提供早期腐蚀迹象，并具有适度的抑制作用。然而，这种涂层的长期性能不能预期，因为ph会随着时间的推移从涂层中浸出或在阳光下降解。因此，所有活性材料都被封装在高岭土纳米管（HNT）智能容器中，并融入溶胶-凝胶基质中，随后将其应用于镁合金基体。虽然PhPh在HNT中的包封由于在酸性条件下的包封，不能对镁合金提供腐蚀指示，但包封的8HQ和FLUO基涂层显示出显著的腐蚀传感和缓蚀潜力。盐雾1 h后，共聚焦显微镜图像显示出明显的荧光信号，8HQ（一种金属离子指示剂）涂层将其信号定位在刻痕区域内，而FLUO（一种pH指示剂）涂层在划痕边缘产生信号。与8HQ相比，FLUO具有更高的量子产率，因此具有更好的荧光强度。此外，与基于8HQ的涂层（3.8 ×105欧姆·cm²）相比，基于FLUO的涂层实现了更高的电荷转移电阻1.3 ×106欧姆·cm²，具有更好的缓蚀性。综上所述，虽然PhPh被发现不适合封装在HNT中的腐蚀传感，但FLUO@HNT作为腐蚀指示剂和缓蚀剂的性能优越，在荧光强度和屏障形成功效方面优于8HQ@HNT。

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来源期刊

Journal of Alloys and Compounds 工程技术-材料科学：综合

CiteScore

11.10

自引率

14.50%

发文量

5146

审稿时长

67 days

期刊介绍： The Journal of Alloys and Compounds is intended to serve as an international medium for the publication of work on solid materials comprising compounds as well as alloys. Its great strength lies in the diversity of discipline which it encompasses, drawing together results from materials science, solid-state chemistry and physics.