Carbon steel corrosion: a review of key surface properties and characterization methods

Corrosion is a subject of interest to interdisciplinary research communities, combining fields of materials science, chemistry, physics, metallurgy and chemical engineering. In order to understand mechanisms of corrosion and the function of corrosion inhibitors, the reactions at the interfaces betwe...

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Published inRSC advances Vol. 7; no. 8; pp. 458 - 461
Main Authors Dwivedi, Deepak, Lepková, Kate ina, Becker, Thomas
Format Journal Article
LanguageEnglish
Published 01.01.2017
Subjects
analytical methods
carbon
catalytic activity
chemical engineering
corrosion
electrochemistry
electrolytes
energy
fuel cells
interdisciplinary research
metallurgy
nanotechnology
steel
texture
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Summary:Corrosion is a subject of interest to interdisciplinary research communities, combining fields of materials science, chemistry, physics, metallurgy and chemical engineering. In order to understand mechanisms of corrosion and the function of corrosion inhibitors, the reactions at the interfaces between the corrosive electrolyte and a steel surface, particularly at the initial stages of the corrosion process, need to be described. Naturally, these reactions are strongly affected by the nature and properties of the steel surfaces. It is however seen that the majority of recent corrosion and corrosion-inhibition investigations are limited to electrochemical testing, with ex situ analysis of the treated steels (post-exposure analysis). The characterization of materials and their surface properties, such as texture and morphology, are not being considered in most studies. Similarly, in situ investigations of the initial stages of the corrosion reactions using advanced surface characterization techniques are scarce. In this review, attention is brought to the importance of surface features of carbon steels, such as texture and surface energy, along with defects dislocation related to mechanical processing of carbon steels. This work is extended to a critical review of surface analytical techniques used for characterization of carbon steels in corrosive media with particular focus on examining steel surfaces treated with corrosion inhibitors. Further, emerging surface analysis techniques and their applicability to analyse carbon steels in corrosive media are discussed. The importance of surface properties is commonly addressed by surface scientists as well as researchers in other chemistry fields such as nanotechnology, fuel cells, and catalysis. This article is expected to appeal to a broad scientific community, including but not limited to corrosion scientists, material chemists, analytical chemists, metal physicists, corrosion and materials engineers. The effects of surface morphology, defects, texture and energy on carbon steel corrosion are elucidated along with relevant characterization methods.
Bibliography:Kate ina Lepková obtained an MSc in chemical engineering from the University of Chemistry and Technology Prague and completed a PhD in physical chemistry (electrochemistry) in the Materials and Surface Science Institute at the University of Limerick. She was awarded an Early Career Research Fellowship at Curtin University in 2009. She is currently a Research Fellow at the Curtin Corrosion Engineering Industry Centre where she leads corrosion inhibition research through several PhD projects. Her research interests are focused on understanding of the mechanisms of carbon steel corrosion and its inhibition for applications in the oil and gas industry and mining sector.
Deepak Dwivedi is currently pursuing research in Department of Chemical Engineering at Curtin University. He obtained his BE in Metallurgical Engineering from O. P. Jindal Institute of Technology, India with university merit position for academic excellence and moved to Indian Institute of Technology (IIT) for research with the designation of "Junior Research Fellow". He has been awarded with prestigious "Balshree award" by the President of India H.E. Ms Pratibha Patil. His scientific competency has also been recognised by the Department of Science and Technology, Government of India and he has been awarded as a "Child Scientist" twice (2006 and 2007) and by Institution of Engineers (Raipur Chapter). His current interest involves the investigation of corrosion inhibition mechanism.
Thomas Becker studied Physics at the University of Ulm in Germany and obtained his PhD from the University of Twente (The Netherlands) in 2005. He joined the Nanochemistry Research Institute/Department of Chemistry at Curtin University in Perth, Australia, in 2005 where he manages the Scanning Probe Microscopy Facility. His research interests focus on sample characterisation with scanning probe microscopy techniques and confocal Raman microscopy. He is currently involved with a number of University based research projects from different disciplines such as corrosion research, hydrogels, health sciences as well as with collaborations with the industry.
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ISSN:2046-2069
2046-2069
DOI:10.1039/c6ra25094g