Corrosion resistance of structural metals depending on the sample orientation and initial exposure conditions in coastal and rural atmospheres. Part 1. Corrosivity toward structural metals at coastal and rural test sites under various exposure conditions

Panchenko, Yulia; Marshakov, Andrey; Nikolaeva, Ludmila; Igonin, Timofey

doi:10.1080/1478422x.2023.2245642

Corrosion Engineering, Science and Technology: The Internationa

2023

DOI: 10.1080/1478422x.2023.2245642

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Corrosion resistance of structural metals depending on the sample orientation and initial exposure conditions in coastal and rural atmospheres. Part 1. Corrosivity toward structural metals at coastal and rural test sites under various exposure conditions

Yulia Panchenko,

Andrey Marshakov,

Ludmila Nikolaeva

et al.

Abstract: Four 1-year tests of metal samples (carbon steel, zinc, copper, aluminum, and D16 alloy) were carried out at locations with coastal and rural atmospheres to determine corrosion losses and the rate of chloride deposition ([Cl-]) on the upper and lower sample sides. [Cl-] were determined for different orientations relative to the sea winds on coastal sites. A methodology for testing metal samples is presented and the values of the first-year corrosion losses of metals (C1) are reported. It is shown that the cor… Show more

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2024

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Cited by 2 publications

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A chloride deposition model for predicting the categories of atmospheric corrosivity in coastal areas

Panchenko,

Marshakov,

Kudryavtseva

et al. 2024

Corrosion Engineering, Science and Technology: The Internationa

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Background: Marine atmospheres are the most corrosive, primarily because they contain sea salts. To assess the category of atmospheric corrosivity, the deposition rate of chloride ions should be measured by experimental methods for at least 1 year, which requires significant expenses and is not always feasible due to the time frame required for the design and erection of structures. Methods: In this study, a fairly simple model for predicting the chloride deposition rate in the coastal zone depending on the wind pattern of the test site, namely wind direction, average speed, and duration in each wind speed range, the distance from the coastline, and the magnitude of marine aerosol generation for each wind speed range, has been developed. The results of comparing the calculated chloride deposition rates with experimental data obtained by the ‘wet candle’ method are presented. Significant findings: The applicability of the model for predicting the categories of atmospheric corrosivity toward typical metals (carbon steel, zinc, copper and aluminum) using dose-response functions has been demonstrated.

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A chloride deposition model for predicting the categories of atmospheric corrosivity in coastal areas

Panchenko,

Marshakov,

Kudryavtseva

et al. 2024

Corrosion Engineering, Science and Technology: The Internationa

View full text Add to dashboard Cite

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Effect of Surface Polymeric Organosilicon Nanolayers on the Electrochemical and Corrosion Behavior of Copper

Petrunin,

Yurasova,

Rybkina

et al. 2024

Polymers

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The formation of polymeric self-organizing organosilicon surface nanolayers on copper occuring as a result of modification of the metal surface with organosilane-based formulations has been studied. The anticorrosive effect of such surface layers in corrosive chloride-containing electrolytes as well as in artificial and natural atmospheres has been studied in detail. It has been found that the maximum protective effect is observed at a thickness of 3.8 molecular layers, where the densest cross-linked polymer layers are formed that hinder the adsorption of chloride ions and other corrosive agents on the metal surface, thus significantly reducing the rate of their reactions with the surface copper atoms, and, as a result, inhibiting the corrosion and local anodic dissolution of the metal.

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Corrosion resistance of structural metals depending on the sample orientation and initial exposure conditions in coastal and rural atmospheres. Part 1. Corrosivity toward structural metals at coastal and rural test sites under various exposure conditions

Cited by 2 publications

References 34 publications

A chloride deposition model for predicting the categories of atmospheric corrosivity in coastal areas

A chloride deposition model for predicting the categories of atmospheric corrosivity in coastal areas

Effect of Surface Polymeric Organosilicon Nanolayers on the Electrochemical and Corrosion Behavior of Copper

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