Corrosion Resistance of Mild Steel Coated with Orgainc Material Containing Pyrazol Moiety

Corrosion Resistance of Mild Steel Coated with Orgainc Material Containing Pyrazol Moiety

Pyridine (P1) and benzoic acid (P2) derivatives with pyrazole moieties were synthesized and evaluated as corrosion inhibitors for mild steel in acidic medium. The evaluation was performed by electrochemical impedance spectroscopy (EIS), potentiodynamic polarization, and weight loss measurement. The...

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Main Authors: Fadoua El Hajjaji, Farid Abrigach, Othman Hamed, Abdelfatah Rasem Hasan, Mustapha Taleb, Shehdeh Jodeh, Enrique Rodríguez-Castellón, María del Valle Martínez de Yuso, Manuel Algarra
Format: Article
Language:English
Published: MDPI AG 2018-09-01
Series:Coatings
Subjects:
pyrazole
mild steel
corrosion resistance
potentiodynamic polarization
XPS spectroscopy
Online Access:http://www.mdpi.com/2079-6412/8/10/330
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spelling doaj-a912466ab45c426893d698d9257a0ad22020-11-24T22:52:10ZengMDPI AGCoatings2079-64122018-09-0181033010.3390/coatings8100330coatings8100330Corrosion Resistance of Mild Steel Coated with Orgainc Material Containing Pyrazol MoietyFadoua El Hajjaji0Farid Abrigach1Othman Hamed2Abdelfatah Rasem Hasan3Mustapha Taleb4Shehdeh Jodeh5Enrique Rodríguez-Castellón6María del Valle Martínez de Yuso7Manuel Algarra8Laboratory of Engineering, Electrochemistry, Modeling and Environment, Faculty of Sciences, University sidi Mohamed Ben Abdellah, FEH Fez, MoroccoLCAE-URAC 18, Faculty of Science, First Mohammed University, P.O. Box 717, 60000 Oujda, MoroccoDepartment of Chemistry, An-Najah National University, P.O. Box 7, Nablus WP, PalestineWater and Environmental Studies Institute, An-Najah National University, P.O. Box 7, Nablus WP, PalestineLaboratory of Engineering, Electrochemistry, Modeling and Environment, Faculty of Sciences, University sidi Mohamed Ben Abdellah, FEH Fez, MoroccoDepartment of Chemistry, An-Najah National University, P.O. Box 7, Nablus WP, PalestineDepartament of Inorganic Chemistry, Faculty of Sciences, University of Málaga, Campus de Teatinos s/n, 29071 Málaga, SpainX-ray Photoelectron Spectroscopy Lab., Central Service to Support Research Building (SCAI), University of Málaga, 29071 Málaga, SpainDepartament of Inorganic Chemistry, Faculty of Sciences, University of Málaga, Campus de Teatinos s/n, 29071 Málaga, SpainPyridine (P1) and benzoic acid (P2) derivatives with pyrazole moieties were synthesized and evaluated as corrosion inhibitors for mild steel in acidic medium. The evaluation was performed by electrochemical impedance spectroscopy (EIS), potentiodynamic polarization, and weight loss measurement. The surface morphologies of the control and steel samples coated with the pyrazole derivatives P1 and P2 were examined by the scanning electron microscopy (SEM), UV-Vis, and X-ray photoelectron spectrocopy (XPS) spectroscopies. Results revealed minor changes on steel surfaces before and after immersion in a 1 M HCl solution. Both derivatives, P1 and P2, showed good inhibition efficiency that is dependent on inhibitor concentration. Both P1 and P2 act as mixed-type inhibitors. The benzoic acid derivative (P2) showed a higher efficiency than P1, which could be attributed to the carboxyl group that is located at the para position to the amino group. This induces a direct electronic resonance between the two groups, the amino and the carboxyl. As a result of this, a higher electron density on the carboxyl group and a stronger bonding to the metal surface occurred. Results also show that, the bonding of both pyrazoles on mild steel surface obey Langmuir adsorption isotherm. Quantum chemical calculations were performed to theoretically define the relationship between the molecular structures and inhibition efficiencies of P1 and P2.http://www.mdpi.com/2079-6412/8/10/330pyrazolemild steelcorrosion resistancepotentiodynamic polarizationXPS spectroscopy
collection DOAJ
language English
format Article
sources DOAJ
author Fadoua El Hajjaji
Farid Abrigach
Othman Hamed
Abdelfatah Rasem Hasan
Mustapha Taleb
Shehdeh Jodeh
Enrique Rodríguez-Castellón
María del Valle Martínez de Yuso
Manuel Algarra
spellingShingle Fadoua El Hajjaji
Farid Abrigach
Othman Hamed
Abdelfatah Rasem Hasan
Mustapha Taleb
Shehdeh Jodeh
Enrique Rodríguez-Castellón
María del Valle Martínez de Yuso
Manuel Algarra
Corrosion Resistance of Mild Steel Coated with Orgainc Material Containing Pyrazol Moiety
Coatings
pyrazole
mild steel
corrosion resistance
potentiodynamic polarization
XPS spectroscopy
author_facet Fadoua El Hajjaji
Farid Abrigach
Othman Hamed
Abdelfatah Rasem Hasan
Mustapha Taleb
Shehdeh Jodeh
Enrique Rodríguez-Castellón
María del Valle Martínez de Yuso
Manuel Algarra
author_sort Fadoua El Hajjaji
title Corrosion Resistance of Mild Steel Coated with Orgainc Material Containing Pyrazol Moiety
title_short Corrosion Resistance of Mild Steel Coated with Orgainc Material Containing Pyrazol Moiety
title_full Corrosion Resistance of Mild Steel Coated with Orgainc Material Containing Pyrazol Moiety
title_fullStr Corrosion Resistance of Mild Steel Coated with Orgainc Material Containing Pyrazol Moiety
title_full_unstemmed Corrosion Resistance of Mild Steel Coated with Orgainc Material Containing Pyrazol Moiety
title_sort corrosion resistance of mild steel coated with orgainc material containing pyrazol moiety
publisher MDPI AG
series Coatings
issn 2079-6412
publishDate 2018-09-01
description Pyridine (P1) and benzoic acid (P2) derivatives with pyrazole moieties were synthesized and evaluated as corrosion inhibitors for mild steel in acidic medium. The evaluation was performed by electrochemical impedance spectroscopy (EIS), potentiodynamic polarization, and weight loss measurement. The surface morphologies of the control and steel samples coated with the pyrazole derivatives P1 and P2 were examined by the scanning electron microscopy (SEM), UV-Vis, and X-ray photoelectron spectrocopy (XPS) spectroscopies. Results revealed minor changes on steel surfaces before and after immersion in a 1 M HCl solution. Both derivatives, P1 and P2, showed good inhibition efficiency that is dependent on inhibitor concentration. Both P1 and P2 act as mixed-type inhibitors. The benzoic acid derivative (P2) showed a higher efficiency than P1, which could be attributed to the carboxyl group that is located at the para position to the amino group. This induces a direct electronic resonance between the two groups, the amino and the carboxyl. As a result of this, a higher electron density on the carboxyl group and a stronger bonding to the metal surface occurred. Results also show that, the bonding of both pyrazoles on mild steel surface obey Langmuir adsorption isotherm. Quantum chemical calculations were performed to theoretically define the relationship between the molecular structures and inhibition efficiencies of P1 and P2.
topic pyrazole
mild steel
corrosion resistance
potentiodynamic polarization
XPS spectroscopy
url http://www.mdpi.com/2079-6412/8/10/330
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