Corrosion of Zn under acidified marine droplets

Azmat, NS; Ralston, KD; Muddle, BC; Cole, IS

doi:10.1016/j.corsci.2011.01.044

Author(s)

Azmat, NS

Ralston, KD

Muddle, BC

Cole, IS

Griffith University Author(s)

Cole, Ivan

Year published

2011

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Abstract

Atmospheric corrosion of Zn under a variety of simulated marine aerosols was studied. In-situ monitoring of droplet pH, volume loss measurements, identification and distribution of crystalline and amorphous phases from corrosion under different droplets were used to understand the role of acidification on atmospheric corrosion of Zn. Results for various droplet chemistries are discussed in terms of initiation mechanism, phase distribution and surface morphology in conjunction with chemical equilibrium calculations. Zn exposed to sulphate containing droplets had relatively small corrosion rates and greater coverage with ...
View more >Atmospheric corrosion of Zn under a variety of simulated marine aerosols was studied. In-situ monitoring of droplet pH, volume loss measurements, identification and distribution of crystalline and amorphous phases from corrosion under different droplets were used to understand the role of acidification on atmospheric corrosion of Zn. Results for various droplet chemistries are discussed in terms of initiation mechanism, phase distribution and surface morphology in conjunction with chemical equilibrium calculations. Zn exposed to sulphate containing droplets had relatively small corrosion rates and greater coverage with Gordaite as compared to sulphate-free droplets where coupons have relatively more coverage with Simonkolleite.
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Journal Title

Corrosion Science

Volume

Issue

DOI

https://doi.org/10.1016/j.corsci.2011.01.044

Subject

Materials Engineering not elsewhere classified

Civil Engineering

Materials Engineering

Mechanical Engineering

Publication URI

http://hdl.handle.net/10072/173777

Collection

Journal articles