The application of neutron reflectometry and atomic force microscopy in the study of corrosion inhibitor films

The application of neutron reflectometry and atomic force microscopy in the study of corrosion inhibitor films

Corrosion inhibitor molecules function by adsorbing to a steel surface and thus prevent oxidation of the metal. The interfacial structures formed by a range of corrosion inhibitor molecules have been investigated by in situ measurements based on atomic force microscopy and neutron reflectometry. Inh...

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Bibliographic Details
Main Authors: John, Doug, Blom, A., Bailey, Stuart, Nelson, A., Schulz, J., De Marco, Roland, Kinsella, Brian
Format: Journal Article
Published: Elsevier 2006
Subjects:
Interfacial structure
Corrosion inhibition
Micelles
Atomic force microscopy
In situ neutron reflectometry
Online Access:http://hdl.handle.net/20.500.11937/36717
Description
Summary:Corrosion inhibitor molecules function by adsorbing to a steel surface and thus prevent oxidation of the metal. The interfacial structures formed by a range of corrosion inhibitor molecules have been investigated by in situ measurements based on atomic force microscopy and neutron reflectometry. Inhibitors investigated include molecules cetyl pyridinium chloride (CPC), dodecyl pyridinium chloride (DPC), 1-hydroxyethyl-2-oleic imidazoline (OHEI) and cetyl dimethyl benzyl ammonium chloride (CDMBAC). This has shown that the inhibitor molecules adsorb onto a surface in micellar structures. Corrosion measurements confirmed that maximum inhibition efficiency coincides with the solution critical micelle concentration.

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