Particle Size on the Corrosion of Mild Steel In Particulate Media and Seawater

Petersen, R. B.; Melchers, R. E.; Hossain, M. M.; Chaves, I. A.

Title: Particle Size on the Corrosion of Mild Steel In Particulate Media and Seawater
Creator: Petersen, R. B.; Melchers, R. E.; Hossain, M. M.; Chaves, I. A.
Relation: Corrosion and Prevention 2021. Proceedings of Corrosion and Prevention 2021, Paper 278 (Newcastle 06 June 2022) p. 1-11
Relation: https://conference.corrosion.com.au/sessions/particle-size-on-the-corrosion-of-mild-steel-in-particulate-media-and-seawater/
Publisher: Australasian Corrosion Association
Resource Type: conference paper
Date: 2022
Description: Steel structures are known to corrode in the presence of seawater and inert particles (sands, rusts, coal, iron ore, etc) of different sizes. Previous work by others has shown that particle size can influence corrosion mass loss rates. However, it remains to be seen whether particle size has an influence on the long-term corrosion mass loss and pit depths under fully immersed seawater conditions. This paper presents experimental work aimed at studying this behaviour. Mild steel coupons were buried in three different particulate media (sand, a coarse silicon carbide, and a fine silicon carbide) and immersed in seawater for up to a year. Pitting depth and extent were found to be independent of particle size. Mass loss was found to increase with an increase in particle size. The progression of corrosion pit depths and mass loss with time are consistent with the initial stages of the bi-modal trend for steel corrosion.
Subject: mild steel; under-deposit corrosion; particle size; mass loss; pit depths; experimental study
Identifier: http://hdl.handle.net/1959.13/1473275
Identifier: uon:48990
Language: eng
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