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Performance of two epoxy compounds against corrosion of C38 steel in 1 M HCl: Electrochemical, thermodynamic and theoretical assessment

A. MolhiEnvironment Materials and Sustainable Development Team -CERNE2D, High School of Technology, Mohammed V University in Rabat, MoroccoRachid HsissouLaboratory of Agro Resources Polymers and Process Engineering (LAPPE) Team of Organic and Polymer Chemistry (TOCP), Faculty of Sciences, Ibn Tofail University, P.O 133. 14000, Kenitra, MoroccoM. DamejEnvironment Materials and Sustainable Development Team -CERNE2D, High School of Technology, Mohammed V University in Rabat, MoroccoАвни БеришаDepartment of Chemistry, Faculty of Natural and Mathematics Science, University of Prishtina, 10000 Prishtina, KosovoMeriem BamaaroufEnvironment Materials and Sustainable Development Team -CERNE2D, High School of Technology, Mohammed V University in Rabat, MoroccoMahamadou SeydouUniversit de Paris, CNRS, ITODYS UMR 7086, 15 rue J.A. de Baf, F-75013 Paris, FranceMohammed BenmessaoudEnvironment Materials and Sustainable Development Team -CERNE2D, High School of Technology, Mohammed V University in Rabat, MoroccoSouad El HajjajiLaboratory of Spectroscopy Molecular Modelling Materials Nanomaterials Water and Environment -CERNE2D Faculty of Sciences, Mohammed V University in Rabat, MoroccoY HamdouniF BouhlalH KouriM ChellouliM BenmessaoudEnvironment Materials and Sustainable Development Team -CERNE2D, High School of Technology, Mohammed V University in Rabat, MoroccoA DahrouchN LabjarS HajjajiLaboratory of Spectroscopy Molecular Modelling Materials Nanomaterials Water and Environment -CERNE2D Faculty of Sciences, Mohammed V University in Rabat, MoroccoS MraniS El ArroujiK KarrouchiF HajjajiK AlaouiZ RaisM TalebM NaciriY AoufirH LgazF LazrakA GhanimiA GuenbourI AliM MoudaneJ TaoufikI ChungD DwivediK LepkovT BeckerF BouhlalN LabjarF AbdounA MazkourM Serghini-IdrissiM MahiE LotfiA SkalliS HajjajiLaboratory of Spectroscopy Molecular Modelling Materials Nanomaterials Water and Environment -CERNE2D Faculty of Sciences, Mohammed V University in Rabat, MoroccoB PadmashreeK ManjunathaB PrasannaO DagdagR HsissouLaboratory of Agro Resources Polymers and Process Engineering (LAPPE) Team of Organic and Polymer Chemistry (TOCP), Faculty of Sciences, Ibn Tofail University, P.O 133. 14000, Kenitra, MoroccoA HarfiA BerishaDepartment of Chemistry, Faculty of Natural and Mathematics Science, University of Prishtina, 10000 Prishtina, KosovoZ SafiC VermaE EbensoM TouhamiM GouriR HsissouLaboratory of Agro Resources Polymers and Process Engineering (LAPPE) Team of Organic and Polymer Chemistry (TOCP), Faculty of Sciences, Ibn Tofail University, P.O 133. 14000, Kenitra, MoroccoB BenzidiaM RehiouiM BerradiA BerishaDepartment of Chemistry, Faculty of Natural and Mathematics Science, University of Prishtina, 10000 Prishtina, KosovoM AssouagN HajjajiA ElharfiA GanashG AziateA YadiniH SaufiA AlmaofariA BenhmamaH HarharS GharbyS HajjajiLaboratory of Spectroscopy Molecular Modelling Materials Nanomaterials Water and Environment -CERNE2D Faculty of Sciences, Mohammed V University in Rabat, MoroccoX MaJ WangJ XuJ JingJ LiH ZhuS YuZ HuD ArthurA JonathanP AmehC AnyaF BrnzoiV BrnzoiI HrborM PetruninL MaksaevaN GladkikhY MakarychevM MaleevaT YurasovaA NazarovR HsissouLaboratory of Agro Resources Polymers and Process Engineering (LAPPE) Team of Organic and Polymer Chemistry (TOCP), Faculty of Sciences, Ibn Tofail University, P.O 133. 14000, Kenitra, MoroccoM BerradiM BouchtiA Bachiri
2021en
ABI

Аннотация

In this work, two epoxy compounds, namely: diglycidyl ether ethylene (DGEE) and diglycidyl ether benzene (DGEB) were evaluated as corrosion inhibitors for C38 steel in 1 M HCl medium. This assessment was performed using electrochemical stationary and transiency, density functional theory (DFT) methods, Monte Carlo, and molecular dynamic simulations. Moreover, the surface of the C38 steel before and after the corrosion test was examined using scanning electron microscopy (SEM). The inhibitory performance of both compounds is enhanced by increasing the concentration of the inhibitors tested, we obtained the most efficiency with an optimal concentration of 5 mM of the inhibitors used. This study permitted to survey the evolution of the inhibitory effect of the two epoxy compounds and show that these inhibitors act as mixed-type inhibitors delaying the rate of anodic and cathodic reactions. Their adsorption isotherms are Langmuir type and primary mechanisms involve physical adsorption. Also, the SEM study confirmed that corrosion inhibition of C38 steel occurs by adsorption of inhibiting molecules on the metal surface, which makes a barrier against corrosion of the latter. The Quantum chemical calculations confirmed the obtained experimental results.

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