Experiment-supported model development for data treatment of diffusion and activation limited polarization curves of magnesium and steel alloys
Experiment-supported model development for data treatment of diffusion and activation limited polarization curves of magnesium and steel alloys
Characterization of any corroding system begins with determining its corrosion potential and rate. These two values serve as a preliminary measure of its surface passivation and kinetic activity which may then be investigated in more detail using local electrochemical or spectroscopic techniques. The potentiodynamic polarization curve (PDP) is the most common technique for simultaneous extraction of these two values, since it provides additional kinetic information in the form of Tafel slopes and can further be used to measure the pitting potential of a system. In the past, numerical analysis of these curves has proven challenging where mass transport limitations influence the currents measured. In this presentation we discuss a finite element model that has been developed to analyse the kinetics of corroding magnesium and steel alloys during PDP's where both activation and diffusion-controlled currents are present. Furthermore, the origins of the mass transport limitations present in these systems have been investigated in more detail through an analysis of the concentration profiles involved.
Stephens, Lisa
d6218c34-25bd-4312-b2bd-f115d2af1d50
Perry, Samuel C.
8e204d86-4a9c-4a5d-9932-cf470174648e
Lacasse, Robert
2ea67c2b-f795-4cee-b774-adb34e5b3bdf
Mauzeroll, Janine
af84f034-1e52-4419-a1c2-ce7116db5b07
1 September 2017
Stephens, Lisa
d6218c34-25bd-4312-b2bd-f115d2af1d50
Perry, Samuel C.
8e204d86-4a9c-4a5d-9932-cf470174648e
Lacasse, Robert
2ea67c2b-f795-4cee-b774-adb34e5b3bdf
Mauzeroll, Janine
af84f034-1e52-4419-a1c2-ce7116db5b07
Stephens, Lisa, Perry, Samuel C., Lacasse, Robert and Mauzeroll, Janine
(2017)
Experiment-supported model development for data treatment of diffusion and activation limited polarization curves of magnesium and steel alloys.
ECS Meeting Abstracts, MA2017-02, [726].
(doi:10.1149/MA2017-02/10/726).
Abstract
Characterization of any corroding system begins with determining its corrosion potential and rate. These two values serve as a preliminary measure of its surface passivation and kinetic activity which may then be investigated in more detail using local electrochemical or spectroscopic techniques. The potentiodynamic polarization curve (PDP) is the most common technique for simultaneous extraction of these two values, since it provides additional kinetic information in the form of Tafel slopes and can further be used to measure the pitting potential of a system. In the past, numerical analysis of these curves has proven challenging where mass transport limitations influence the currents measured. In this presentation we discuss a finite element model that has been developed to analyse the kinetics of corroding magnesium and steel alloys during PDP's where both activation and diffusion-controlled currents are present. Furthermore, the origins of the mass transport limitations present in these systems have been investigated in more detail through an analysis of the concentration profiles involved.
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Published date: 1 September 2017
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Local EPrints ID: 491836
URI: http://eprints.soton.ac.uk/id/eprint/491836
PURE UUID: 62305a90-7d01-447e-b7cb-f857a87924f2
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Date deposited: 04 Jul 2024 16:58
Last modified: 11 Jul 2024 02:01
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Author:
Lisa Stephens
Author:
Samuel C. Perry
Author:
Robert Lacasse
Author:
Janine Mauzeroll
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