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Journal of Materials Engineering and Performance

Erschienen in:

22.06.2016

Determination of Diffusion Coefficients in Cement-Based Materials: An Inverse Problem for the Nernst–Planck and Poisson Models

verfasst von: Krzysztof Szyszkiewicz-Warzecha, Jerzy J. Jasielec, Janusz Fausek, Robert Filipek

Erschienen in: Journal of Materials Engineering and Performance | Ausgabe 8/2016

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Abstract

Transport properties of ions have significant impact on the possibility of rebars corrosion thus the knowledge of a diffusion coefficient is important for reinforced concrete durability. Numerous tests for the determination of diffusion coefficients have been proposed but analysis of some of these tests show that they are too simplistic or even not valid. Hence, more rigorous models to calculate the coefficients should be employed. Here we propose the Nernst–Planck and Poisson equations, which take into account the concentration and electric potential field. Based on this model a special inverse method is presented for determination of a chloride diffusion coefficient. It requires the measurement of concentration profiles or flux on the boundary and solution of the NPP model to define the goal function. Finding the global minimum is equivalent to the determination of diffusion coefficients. Typical examples of the application of the presented method are given.

Vorheriger Artikel Continuous Modeling of Calcium Transport Through Biological Membranes

Nächster Artikel Influence of Rheological and Thermal Properties of Polymers During Melt Spinning on Bicomponent Fiber Morphology

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In fact, we implicitly assume here one more equation. Namely, in the case, where there are no time changing magnetic fields we have \({\text{rot}}{\kern 1pt} {\mathbf{E}} = 0.\) From this equation in the 1D case \(\left( {{\mathbf{E}} = (E_{x} ,\,{\kern 1pt} 0,\,{\kern 1pt} 0)} \right)\) one can easily derive that \(E_{x}\) depends only on one space variable \(x:\) \(E_{x} = E_{x} (x,t).\)

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Titel: Determination of Diffusion Coefficients in Cement-Based Materials: An Inverse Problem for the Nernst–Planck and Poisson Models
verfasst von: Krzysztof Szyszkiewicz-Warzecha
Jerzy J. Jasielec
Janusz Fausek
Robert Filipek
Publikationsdatum: 22.06.2016
Verlag: Springer US
Erschienen in: Journal of Materials Engineering and Performance / Ausgabe 8/2016
Print ISSN: 1059-9495
Elektronische ISSN: 1544-1024
DOI: https://doi.org/10.1007/s11665-016-2167-4

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