Corrosion Inhibition of 3003 Aluminum Alloy in Molar Hydrochloric Acid Solution by Olive Oil Mill Liquid By-Product

Corrosion Inhibition of 3003 Aluminum Alloy in Molar Hydrochloric Acid Solution by Olive Oil Mill Liquid By-Product

According to the literature, the works on the inhibition of aluminum alloy corrosion using naturally occurring compounds are limited. For this, the inhibiting effect of oil mill liquid by-product (OMW) on the corrosion of 3003 aluminum alloy (AA3003) in molar hydrochloric acid solution was evaluated...

Full description

Bibliographic Details
Main Authors: M. Chadili, M. M. Rguiti, B. El Ibrahimi, R. Oukhrib, A. Jmiai, M. Beelkhaouda, L. Bammou, M. Hilali, L. Bazzi
Format: Article
Language:English
Published: Hindawi Limited 2021-01-01
Series:International Journal of Corrosion
Online Access:http://dx.doi.org/10.1155/2021/6662395
id doaj-a03866f708bb44b596841925d7713d3b
record_format Article
spelling doaj-a03866f708bb44b596841925d7713d3b2021-02-15T12:53:02ZengHindawi LimitedInternational Journal of Corrosion1687-93251687-93332021-01-01202110.1155/2021/66623956662395Corrosion Inhibition of 3003 Aluminum Alloy in Molar Hydrochloric Acid Solution by Olive Oil Mill Liquid By-ProductM. Chadili0M. M. Rguiti1B. El Ibrahimi2R. Oukhrib3A. Jmiai4M. Beelkhaouda5L. Bammou6M. Hilali7L. Bazzi8Team of Physical Chemistry and Environment, Faculty of Sciences, University of Ibn Zohr, Agadir, MoroccoTeam of Physical Chemistry and Environment, Faculty of Sciences, University of Ibn Zohr, Agadir, MoroccoTeam of Physical Chemistry and Environment, Faculty of Sciences, University of Ibn Zohr, Agadir, MoroccoTeam of Physical Chemistry and Environment, Faculty of Sciences, University of Ibn Zohr, Agadir, MoroccoTeam of Physical Chemistry and Environment, Faculty of Sciences, University of Ibn Zohr, Agadir, MoroccoLaboratory of Applied Chemistry and Environment, ENSA, University Ibn Zohr, PO Box 1136, Agadir, MoroccoLaboratory of Applied Chemistry and Environment, ENSA, University Ibn Zohr, PO Box 1136, Agadir, MoroccoTeam of Physical Chemistry and Environment, Faculty of Sciences, University of Ibn Zohr, Agadir, MoroccoIndustrial & Logistic Laboratory, Higher School of Management, Telecommunications and Computer Science, SUP MTI, Rabat, MoroccoAccording to the literature, the works on the inhibition of aluminum alloy corrosion using naturally occurring compounds are limited. For this, the inhibiting effect of oil mill liquid by-product (OMW) on the corrosion of 3003 aluminum alloy (AA3003) in molar hydrochloric acid solution was evaluated using electrochemical techniques. In parallel, a computational approach based on DFT/B3LYP and Monte Carlo methods was used to understand the inhibition process under electronic and atomic scales, respectively. The experimental results reveal that OMW has a good inhibiting effect on the corrosion of AA3003 alloy in the tested solution and acts as a cathodic inhibitor. The inhibitory efficiency increases by increasing OMW concentration to attain 89% at 6.0 ppm. The effect of temperature shows that the inhibition efficiency of OMW decreases with temperature rising. Nevertheless, a good prevention capacity of 83% is obtained at 338 K. Such interesting achieved protection property was attributed to the adsorption of OMW constituents onto the alloy surface via a mixed physichemisorption process. This process is found to obey the Langmuir adsorption isotherm. Furthermore, the activation thermodynamic parameters of the corrosion process of AA3003 alloy were also determined and discussed. The computational outcomes outlined the ability of the OMW components to interact favorably with the metal surface, hence the formation of a protective layer, which justified the observed inhibition behaviors. Conferring to the present study, OMW can be used as a good green corrosion inhibitor for AA3003 alloy in the acidic medium.http://dx.doi.org/10.1155/2021/6662395
collection DOAJ
language English
format Article
sources DOAJ
author M. Chadili
M. M. Rguiti
B. El Ibrahimi
R. Oukhrib
A. Jmiai
M. Beelkhaouda
L. Bammou
M. Hilali
L. Bazzi
spellingShingle M. Chadili
M. M. Rguiti
B. El Ibrahimi
R. Oukhrib
A. Jmiai
M. Beelkhaouda
L. Bammou
M. Hilali
L. Bazzi
Corrosion Inhibition of 3003 Aluminum Alloy in Molar Hydrochloric Acid Solution by Olive Oil Mill Liquid By-Product
International Journal of Corrosion
author_facet M. Chadili
M. M. Rguiti
B. El Ibrahimi
R. Oukhrib
A. Jmiai
M. Beelkhaouda
L. Bammou
M. Hilali
L. Bazzi
author_sort M. Chadili
title Corrosion Inhibition of 3003 Aluminum Alloy in Molar Hydrochloric Acid Solution by Olive Oil Mill Liquid By-Product
title_short Corrosion Inhibition of 3003 Aluminum Alloy in Molar Hydrochloric Acid Solution by Olive Oil Mill Liquid By-Product
title_full Corrosion Inhibition of 3003 Aluminum Alloy in Molar Hydrochloric Acid Solution by Olive Oil Mill Liquid By-Product
title_fullStr Corrosion Inhibition of 3003 Aluminum Alloy in Molar Hydrochloric Acid Solution by Olive Oil Mill Liquid By-Product
title_full_unstemmed Corrosion Inhibition of 3003 Aluminum Alloy in Molar Hydrochloric Acid Solution by Olive Oil Mill Liquid By-Product
title_sort corrosion inhibition of 3003 aluminum alloy in molar hydrochloric acid solution by olive oil mill liquid by-product
publisher Hindawi Limited
series International Journal of Corrosion
issn 1687-9325
1687-9333
publishDate 2021-01-01
description According to the literature, the works on the inhibition of aluminum alloy corrosion using naturally occurring compounds are limited. For this, the inhibiting effect of oil mill liquid by-product (OMW) on the corrosion of 3003 aluminum alloy (AA3003) in molar hydrochloric acid solution was evaluated using electrochemical techniques. In parallel, a computational approach based on DFT/B3LYP and Monte Carlo methods was used to understand the inhibition process under electronic and atomic scales, respectively. The experimental results reveal that OMW has a good inhibiting effect on the corrosion of AA3003 alloy in the tested solution and acts as a cathodic inhibitor. The inhibitory efficiency increases by increasing OMW concentration to attain 89% at 6.0 ppm. The effect of temperature shows that the inhibition efficiency of OMW decreases with temperature rising. Nevertheless, a good prevention capacity of 83% is obtained at 338 K. Such interesting achieved protection property was attributed to the adsorption of OMW constituents onto the alloy surface via a mixed physichemisorption process. This process is found to obey the Langmuir adsorption isotherm. Furthermore, the activation thermodynamic parameters of the corrosion process of AA3003 alloy were also determined and discussed. The computational outcomes outlined the ability of the OMW components to interact favorably with the metal surface, hence the formation of a protective layer, which justified the observed inhibition behaviors. Conferring to the present study, OMW can be used as a good green corrosion inhibitor for AA3003 alloy in the acidic medium.
url http://dx.doi.org/10.1155/2021/6662395
work_keys_str_mv AT mchadili corrosioninhibitionof3003aluminumalloyinmolarhydrochloricacidsolutionbyoliveoilmillliquidbyproduct
AT mmrguiti corrosioninhibitionof3003aluminumalloyinmolarhydrochloricacidsolutionbyoliveoilmillliquidbyproduct
AT belibrahimi corrosioninhibitionof3003aluminumalloyinmolarhydrochloricacidsolutionbyoliveoilmillliquidbyproduct
AT roukhrib corrosioninhibitionof3003aluminumalloyinmolarhydrochloricacidsolutionbyoliveoilmillliquidbyproduct
AT ajmiai corrosioninhibitionof3003aluminumalloyinmolarhydrochloricacidsolutionbyoliveoilmillliquidbyproduct
AT mbeelkhaouda corrosioninhibitionof3003aluminumalloyinmolarhydrochloricacidsolutionbyoliveoilmillliquidbyproduct
AT lbammou corrosioninhibitionof3003aluminumalloyinmolarhydrochloricacidsolutionbyoliveoilmillliquidbyproduct
AT mhilali corrosioninhibitionof3003aluminumalloyinmolarhydrochloricacidsolutionbyoliveoilmillliquidbyproduct
AT lbazzi corrosioninhibitionof3003aluminumalloyinmolarhydrochloricacidsolutionbyoliveoilmillliquidbyproduct
_version_ 1714866654554357760

Similar Items