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Synergistic Corrosion Inhibition of Mild Steel in Aqueous Chloride Solutions by an Imidazolinium Carboxylate Salt

Alison L. ChongSchool of Chemistry, Monash University, Box 23, Clayton, Victoria 3800, AustraliaJames I. MardelCSIRO Manufacturing, Private Bag 10, Clayton, Victoria 3169, AustraliaDouglas R. MacFarlaneSchool of Chemistry, Monash University, Box 23, Clayton, Victoria 3800, AustraliaMaria ForsythInstitute for Frontier Materials, Deakin University, Locked Bag 20000, Geelong, Victoria 3220, AustraliaAnthony E. SomersInstitute for Frontier Materials, Deakin University, Locked Bag 20000, Geelong, Victoria 3220, Australia
2016en
ABI

Аннотация

Mild steel infrastructure is constantly under corrosive attack in most environmental and industrial conditions. There is an ongoing search for environmentally friendly, highly effective inhibitor compounds that can provide a protective action in situations ranging from the marine environment to oil and gas pipelines. In this work an organic salt comprising a protic imidazolinium cation and a 4-hydroxycinnamate anion has been shown to produce a synergistic corrosion inhibition effect for mild steel in 0.01 M NaCl aqueous solutions under acidic, neutral, and basic conditions; an important and unusual phenomenon for one compound to support inhibition across a range of pH conditions. Significantly, the individual components of this compound do not inhibit as effectively at equivalent concentrations, particularly at pH 2. Immersion studies show the efficacy of these inhibitors in stifling corrosion as observed from optical, SEM, and profilometry experiments. The mechanism of inhibition appears to be dominated by anodic behavior where dissolution of the steel, and in particular the pitting process, is stifled. FTIR spectroscopy provides confirmation of a protective interfacial layer, with the observation of interactions between the steel surface and 4-hydroxycinnamate.

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