Nanosilica from canary seed husk for corrosion protection of structural steel

Author:

León‐Silva U.1,Nicho M. E.1,Cajero‐Sotelo L.1,Castro‐Guerrero C. F.2,Escobedo‐Alatorre Jesús1,Díaz‐Guillén M. R.3

Affiliation:

1. Center for Research in Engineering and Applied Science (CIICAp) Autonomous University of the State of Morelos (UAEM) Cuernavaca Morelos Mexico

2. National Technological Institute of Mexico National Council of Humanities, Sciences and Technologies (Conahcyt) Altamira Mexico

3. National Institute of Electricity and Clean Energies (INEEL) Cuernavaca Morelos Mexico

Abstract

AbstractAn alternative technique is presented for the corrosion protection of the A36 structural steel (A36SS) in acid medium (H2SO4) using silica obtained from canary seed husk (CSH). The silica was obtained in a solid amorphous state with a particle size of 10–22 nm. The anticorrosive properties of nanosilica (NS) were studied using potentiodynamic polarization (PDP), linear polarization resistance (LPR), and electrochemical impedance spectroscopy (EIS). Before carrying out the corrosion tests, the A36SS was subjected to a treatment with NaOH solution without and with the presence of NS. The A36SS treated with NS presented the lowest current density values and the noblest corrosion potential values, indicating that the corrosion rate decreased. The surface morphological study of the tested systems using SEM/EDS showed that the NS‐treated A36SS had a more efficient physical barrier against corrosive species.

Publisher

Wiley

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