Abstract
Abstract
The corrosive degradation of reinforcement metal in concrete structures is a significant concern, necessitating the search for anti-corrosive chemical options to classic concrete inhibitors. A cost-effective and non-toxic inhibitor for corrosion control of thermo-mechanically treated-mild steel (TMT-MS) rebar in reinforced concrete beams (RCBs) is explored in this investigation, using methanolic leaf extracts from four Nepali plants: Sesamum indicum L. (SiL), Elaeocarpus angustifolius Blume (EaL), Ziziphus budhensis (ZbL), and Tagetes erecta L . (TeL). The research involved in situ electrochemical analyses of half-cell potential (E corr ) and electrical resistivity (E ρ ), as well as the relevant surface analysis techniques. The anti-corrosion effectiveness, based on the E corr analysis, is correlated well with E ρ assessments. As the concentrations of the four plant extracts—SiL, EaL, ZbL, and TeL—increased from 500 to 4000 ppm in concrete paste, the E corr of TMT-MS rebar shifted to a more noble potential than –126 mV (SCE), and the E ρ increased more than 20 kΩ·cm after 168 days of exposure at ambient conditions, indicating a lower corrosion risk of the reinforcing TMT-MS rebar, compared to the control condition without plant extracts. The improved anti-corrosion effectiveness of these extracts is due to the adsorption of their phytocompounds onto the rebar surface in RCBs, as indicated by surface analysis. Chemical screening, ultraviolet-visible (UV-Vis), fourier transfer infrared (FTIR) spectrometry, and liquid chromatography-mass spectrometry (LC-MS), along with toxicity tests, identify non-toxic alkaloids, phenols, flavonoids, terpenoids, lipids, and saponins in the plant extracts, which function as anti-corrosive agents to help prevent early corrosion of reinforcing TMT-MS in RCBs.
Direct answer
What can I do from this paper page?
Use this page to scan "Tailoring of Nepal-sourced plant extracts as anti-corrosive additives for mitigating rebar corrosion in reinforced concrete beam" quickly: start with the summary and abstract, then check the authors, source, topics, and related papers. From here, open Scollr to follow Concrete Corrosion and Durability research, save the paper, or map adjacent work.
Research areas
Follow related topics
Citation
BibTeX
@article{Bhattarai2026Tailoring,
title = {Tailoring of Nepal-sourced plant extracts as anti-corrosive additives for mitigating rebar corrosion in reinforced concrete beam},
author = {Jagadeesh Bhattarai and Madhab Gautam and Nootan Prasad Bhattarai},
journal = {Arabian Journal of Chemistry},
year = {2026},
doi = {10.25259/ajc_1354_2025},
url = {https://doi.org/10.25259/ajc_1354_2025}
}
FAQ
Using this paper in a discovery workflow
How do I find related work for this paper?
Use the related papers and topic links on this page as starting points. In Scollr, you can also open the paper and build a literature map around its references, citing papers, and related work.
How can I keep up with new Concrete Corrosion and Durability research papers?
Follow Concrete Corrosion and Durability research in Scollr. New papers from the topic flow into a personalized feed, and you can save useful studies to revisit later.
Can I cite this paper from this page?
This page includes a static BibTeX block for Tailoring of Nepal-sourced plant extracts as anti-corrosive additives for mitigating rebar corrosion in reinforced concrete beam. Always verify the DOI, source, and publication details against the publisher record before submitting a manuscript.
Follow this research in Scollr
Follow the topics and authors behind this paper, save useful studies, and build a literature map when you are ready to go deeper.
Get the app