AI Article Synopsis
- Corrosion is a common and costly problem for metallic structures, especially in saline environments like seawater, raising safety issues.
- Green corrosion inhibitors, which are eco-friendly and biodegradable, show promise as alternatives to traditional inhibitors but face challenges in salty conditions.
- This review covers key aspects of corrosion inhibitors, the mechanisms behind corrosion and inhibition in NaCl, characterization techniques, theoretical models, and guidelines for selecting corrosion inhibitors to enhance research in this field.
Article Abstract
Corrosion is an inevitable and persistent issue that affects various metallic infrastructures, leading to significant economic losses and safety concerns, particularly in areas near or in contact with saline solutions such as seawater. Green corrosion inhibitors are compounds derived from natural sources that are biodegradable in various environments, offering a promising alternative to their conventional counterparts. Despite their potential, green corrosion inhibitors still face several limitations and challenges when exposed to NaCl environments. This comprehensive review delves into these limitations and associated challenges, shedding light on the progress made in addressing these issues and potential future developments as tools in corrosion management. Explicitly the following aspects are covered: (1) attributes of corrosion inhibitors, (2) general corrosion mechanism, (3) mechanism of corrosion inhibition in NaCl, (4) typical electrochemical and surface characterization techniques, (5) theoretical simulations by Density Functional Theory, and (6) corrosion testing standards and general guidelines for corrosion inhibitor selection. This review is expected to advance the knowledge of green corrosion inhibitors and promote further research and applications.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11356518 | PMC |
| http://dx.doi.org/10.3390/ma17163996 | DOI Listing |
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