Corrosion Mechanisms and Electrochemical Interfaces: In Honor of Prof. Digby Macdonald
A special issue of Corrosion and Materials Degradation (ISSN 2624-5558).
Deadline for manuscript submissions: 31 January 2025 | Viewed by 8776
Special Issue Editors
2. ROSEN USA, Inc., 14120 Interdrive East, Houston, TX 77032, USA
Interests: corrosion engineering; materials science; electrochemistry; chemistry of materials; metallurgy
Special Issues, Collections and Topics in MDPI journals
Interests: materials degradation; corrosion; degradation of polymer and composites
Special Issues, Collections and Topics in MDPI journals
Special Issue Information
Dear Colleagues,
This Special Issue aims to gather scientific contributions that focus on corrosion mechanisms and electrochemical interface phenomena in material degradation processes.
An ample research scenario will be covered, including a range of corrosion and material degradation topics: localized corrosion, stress corrosion cracking, hydrogen embrittlement, crevice corrosion, atmospheric corrosion, corrosion inhibitors, microbiologically induced corrosion, as well as electrochemical kinetics and thermodynamics. In addition, advanced electrochemical techniques and computational studies for corrosion prevention and prediction, including stochastic and deterministic modeling approaches, as well as artificial intelligence and machine learning are also welcome. A comprehensive approach from theory to applications is considered for diverse topics such as energy systems, nuclear plants and repositories, geothermal, construction, transportation, aerospace, medical, environmental, materials sustainability, carbon capture, net zero emissions and circular economy aspects, among others.
In this regard, this Special Issue in Honor of Prof. Digby Macdonald is devoted to communications including experimental and theoretical studies on corrosion and electrochemical interfaces appealing to material degradation, protection and performance.
Dr. David M. Bastidas
Prof. Dr. Raman Singh
Guest Editors
Manuscript Submission Information
Manuscripts should be submitted online at www.mdpi.com by registering and logging in to this website. Once you are registered, click here to go to the submission form. Manuscripts can be submitted until the deadline. All submissions that pass pre-check are peer-reviewed. Accepted papers will be published continuously in the journal (as soon as accepted) and will be listed together on the special issue website. Research articles, review articles as well as short communications are invited. For planned papers, a title and short abstract (about 100 words) can be sent to the Editorial Office for announcement on this website.
Submitted manuscripts should not have been published previously, nor be under consideration for publication elsewhere (except conference proceedings papers). All manuscripts are thoroughly refereed through a single-blind peer-review process. A guide for authors and other relevant information for submission of manuscripts is available on the Instructions for Authors page. Corrosion and Materials Degradation is an international peer-reviewed open access quarterly journal published by MDPI.
Please visit the Instructions for Authors page before submitting a manuscript. The Article Processing Charge (APC) for publication in this open access journal is 1000 CHF (Swiss Francs). Submitted papers should be well formatted and use good English. Authors may use MDPI's English editing service prior to publication or during author revisions.
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Planned Papers
The below list represents only planned manuscripts. Some of these manuscripts have not been received by the Editorial Office yet. Papers submitted to MDPI journals are subject to peer-review.
1. Title: The importance of considering the service environment when studying and predicting the performance of corrodible structures
Author: Fraser King
Integrity Corrosion Consulting Ltd., Nanaimo, British Columbia, Canada V9T 1K2
Abstract
It should go without saying that when studying the corrosion behaviour of a component or structure the experimental conditions should reflect the service environment to which the object will be exposed. However, all too frequently, “accelerated” conditions involving applied potentials, elevated temperature, high solute concentrations, excessive strain or strain rates, etc. are used which complicates prediction of the in-service behavior or component lifetime. At best, it is necessary to extrapolate the results of these accelerated laboratory measurements to more realistic conditions, ideally based on a mechanistic understanding of the processes involved. At worst, accelerated laboratory tests may suggest corrosion processes that are not feasible or relevant to the service environment, potentially disqualifying a given material or design from consideration that would otherwise provide acceptable behaviour in service.
Examples of the need to properly take into account the service environment and the potential negative consequences of accelerated testing are given for the case of the corrosion behaviour of nuclear waste container materials.
2. Title: Validation of radiolysis models against experimental data in support of the prediction of the radiation-induced corrosion of copper nuclear used fuel containers
Authors: Scott Briggs,1 Mehran Behazin,1 and, Fraser King2*
1 Nuclear Waste Management Organization, Toronto, Ontario, Canada M4T 2S3
2 Integrity Corrosion Consulting Ltd., Nanaimo, British Columbia, Canada V9T 1K2
Abstract
Copper has been proposed as a container material for the disposal of used nuclear fuel in a number of countries worldwide. The container material will be subject to various corrosion processes in a deep geological repository, including radiation-induced corrosion (RIC) resulting from the g-irradiation of the near-field environment. A comprehensive model is being developed and implemented in COMSOL platform to predict the extent of RIC by coupling a radiolysis model to the interfacial electrochemical reactions on the container surface. An important component of the overall model is a radiolysis model to predict the time-dependent yield of oxidizing and reducing radiolysis products.
As a step in the model development, various radiolysis models have been validated against experimental data in order to select the most appropriate reaction scheme to then be coupled to the interfacial electrochemical processes. Experimental measurements of the yield of various radiolytic species are available for pure H2O and Cl‑ containing solutions, with and without a gas headspace. The results from these experiments have been compared with predictions from corresponding radiolysis models, including the effects of the partitioning of gaseous species (O2 and H2) at the gas-liquid interface. Different reaction schemes for the Cl‑ radiolysis models are compared.