A novel methodology for monitoring low-temperature corrosion caused by hygroscopic salts using linear polarization resistance

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Titre:	A novel methodology for monitoring low-temperature corrosion caused by hygroscopic salts using linear polarization resistance
Auteur(s):	Yahi, Sarah Bensmaili, Aicha Lehmusto, Juho Hupa, Leena Haddad, Ahmed Benmohamed, Manel Vainio, Emil
Mots-clés:	Chronoamperometry Corrosion monitoring EIS Hygroscopic salt Linear polarization resistance
Date de publication:	2024
Editeur:	Elsevier
Collection/Numéro:	Electrochimica Acta/ Vol. 478: 143827 (20 Feb. 2024);pp. 1-11
Résumé:	A new methodology for monitoring low-temperature corrosion caused by hygroscopic salts was developed and tested with ZnCl2. First, deliquescence and efflorescence points of ZnCl2 were determined by electrochemical impedance spectroscopy and chronoamperometry measurements in the range of 10–35 vol % H2O. Then, low-temperature corrosion was monitored using a probe that combines linear polarization resistance and mass loss measurements. Suitable potential and scan rate for the linear polarization resistance measurements were experimentally determined. The feasibility of the probe was tested by monitoring the corrosiveness of ZnCl2 on P235GH steel under different temperatures (100–180 °C) and water vapor concentrations (15–35 vol %). With the developed corrosion probe, corrosion caused by hygroscopic salts during changes in testing conditions can be monitored and evaluated.
URI/URL:	https://doi.org/10.1016/j.electacta.2024.143827 http://dlibrary.univ-boumerdes.dz:8080/handle/123456789/13323
ISSN:	0013-4686
Collection(s) :	Publications Internationales

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