Journal ArticleDOI
The mechanism of the oxygen reduction on rust-covered metal substrates
TLDR
In this article, the relation between the kinetics of the oxygen reduction and the reduction of the rust layer was analyzed and it was shown that oxygen is predominantly reduced within the rust scale and not at the metal/electrolyte phase boundary.About:
This article is published in Corrosion Science.The article was published on 1994-02-01. It has received 229 citations till now. The article focuses on the topics: Rust & Oxygen.read more
Citations
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Composition and protective ability of rust layer formed on weathering steel exposed to various environments
TL;DR: The compositional change of rust (corrosion products) layer formed on weathering steel exposed to atmosphere with different amount of air-borne sea salt particles in Japan have been investigated by the X-ray diffraction method as mentioned in this paper.
Journal ArticleDOI
A critical review on the process of contaminant removal in fe0–h2o systems
TL;DR: It is concluded that Fe0 materials act both as source of corrosion products for contaminant adsorption/co‐precipitation and as a generator of FeII and H2 (H) for possible catalytic contaminant reduction.
Journal ArticleDOI
Iron release from corroded iron pipes in drinking water distribution systems: effect of dissolved oxygen.
Pankaj Sarin,Vernon L. Snoeyink,J. Bebee,K.K. Jim,M.A. Beckett,Waltraud M. Kriven,Jonathan A. Clement +6 more
TL;DR: It is substantiated that increasing the concentration of oxidants in water and maintaining flowing conditions can reduce the amount of iron release from corroded iron pipes, and that the microstructure and composition of corrosion scales are important parameters that can influence the amounts of iron released from such systems.
Journal ArticleDOI
The science of pipe corrosion: A review of the literature on the corrosion of ferrous metals in soils
Ivan S. Cole,Donavan Marney +1 more
TL;DR: A review of the literature that may assist in forming a multiscale model of corrosion in soils is presented in this article, which takes into account macro-environmental processes (rainfall, etc), soils processes (water movement, oxygen transport, etc.), processes within the oxides, and the electrochemical activity occurring at the metal surface.
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Iron Corrosion Scales: Model for Scale Growth, Iron Release, and Colored Water Formation
TL;DR: A conceptual model has been developed in this paper to describe the formation and growth of iron scales, and their reactions that lead to colored water problems, which can be used as a basis for changing water quality to minimize colored water formation.
References
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Book
The mathematics of diffusion
TL;DR: Though it incorporates much new material, this new edition preserves the general character of the book in providing a collection of solutions of the equations of diffusion and describing how these solutions may be obtained.
Journal ArticleDOI
On the atmospheric corrosion of metals which are covered with thin electrolyte layers. II, Experimental results
Martin Stratmann,Heinz Streckel +1 more
TL;DR: In this paper, the corrosion properties of pure iron and the alloys Fe-0.5Cu and Fe-3.4Cu are investigated during several wet/dry transitions, and the corrosion potential is measured with a Kelvin probe without touching the surface under investigation.
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Electrochemical methods for studying diffusion, permeation and solubility of hydrogen in metals
N. Boes,H. Züchner +1 more
TL;DR: In this paper, a recently developed electrochemical technique for measuring hydrogen (isotope) solubility in transition metals is described, and various electrochemical hydrogen-diffusion and permeation methods are presented and compared.
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An electrochemical study of phase-transitions in rust layers
TL;DR: In this paper, isolated rust layers have been investigated by electrochemical methods to find out whether their reduction and re-oxidation can affect the atmospheric corrosion of iron, and the results showed that the reduced surface layer can be easily oxidized back to γ-FeOOH, magnetite can partly be oxidized to Fe 2 O 3.