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TiO2- Polyurethane Cocopol Blend Nanocomposites as an Anticorrosion Coating for Mild Steel

Authors :
Ruda, Archie Gomera
Bonilla, Marjune Tamayo
Ubas, Kurt Sterling M.
Tilendo, Amierson C.
Estrada, Dave Joseph E.
Capangpangan, Rey
Cumba, Rey Marc T.
Labis, Joselito P.
Sayson, Noel Lito B.
Alguno, Arnold C.
Source :
Diffusion and Defect Data Part B: Solid State Phenomena; June 2024, Vol. 357 Issue: 1 p43-49, 7p
Publication Year :
2024

Abstract

Mild steels were the most frequently used materials in industries and factories since it possesses unique properties but due to weak environmental changes, these cause deterioration and corrosion to the materials’ surface. To prevent such, protective coatings were applied to protect against corrosion in which by incorporating titanium nanoparticles in polyurethane coatings. Titanium nanoparticles were synthesized using titanium butoxide as a precursor. The obtained nanoparticles were used as an inhibitor mixed with coconut oil-based polyurethane polyol blend against the corrosion on mild steel of 3.5% of sodium chloride solution which has been investigated using the Tafel polarization technique. The polarization curves of the corrosion potential for bare mild steel, along with different amounts of titanium nanoparticles coating, exhibit a positive shift. This shift indicates that the coating film effectively reduces the transport path for the corrosive solution, providing a protective barrier against corrosion. This observation is further supported by the results of the adhesive strength test, which demonstrates that the attachment of the coating films to the metal increases with higher amounts of titanium nanoparticles. This indicates improved adhesion and a stronger bond between the coating and the substrate, enhancing the overall corrosion resistance. The increase of contact angle test confirms the improvement of the coating’s hydrophobicity with the addition of titanium nanoparticles. This suggests that the coating repels water more effectively, further contributing to its protective properties against corrosion. Results also show that the addition of 4wt% of titanium nanoparticles has better anti-corrosion properties than the PU CCP alone, and 0.5, 1.0, and 2.0wt% of titanium added.

Details

Language :
English
ISSN :
10120394
Volume :
357
Issue :
1
Database :
Supplemental Index
Journal :
Diffusion and Defect Data Part B: Solid State Phenomena
Publication Type :
Periodical
Accession number :
ejs66752590
Full Text :
https://doi.org/10.4028/p-57V3sT