Corrosion mechanisms of plasma welded Nickel aluminium bronze immersed in seawater

Date published

2024-03-23

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Elsevier

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Article

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0010-938X

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Citation

Dobson T, Larrosa N, Reid M, et al., (2024) Corrosion Mechanisms of Plasma Welded Nickel Aluminium Bronze Immersed in Seawater. Corrosion Science, Volume 232, May 2024, Article number 112004

Abstract

Nickel Aluminium Bronzes (NAB) are copper-based multi-phase alloys used extensively in marine applications. NAB is vulnerable to seawater corrosion, however the interaction between its corrosion mechanisms and real-world factors including biofouling, weld microstructure and residual stress are poorly understood. Seawater corrosion tests were performed on plasma-welded NAB in laboratory and marine environments, demonstrating that the retained β’ phase in the Heat Affected Zone (HAZ) experiences Selective Phase Corrosion (SPC), whereas crevice corrosion associated with SPC of the κIII phase occurs at biofouled and stressed areas of parent material. These factors, seldom simulated in physical tests, severely impact NAB’s corrosion resistance.

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Github

Keywords

Marine corrosion, Nickel aluminium bronze, Biofouling, Corrosion mechanisms, Residual stress, Plasma welding

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Attribution 4.0 International

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The authors acknowledge the support of ANSTO in providing access to instruments, capabilities and facilities used in this via Proposal 13838. This work was supported by the EPSRC [grant number EP/R513179/1] and Babcock International [studentship number 2019 - 4720].