Abstract
Abstract The corrosion of 90:10 Cu:Ni and 70:30 Cu:Ni alloys in aerated sea water and deaerated sea water containing ∼ 0.2 g/m3 sulfide has been studied using a recirculating flow loop. Tubular specimens of each alloy were tested under well characterized hydrodynamic and mass transfer conditions. At sea water velocities up to 5 m/s (Reynolds numbers up to 74,000), the corrosion rates in the sulfide polluted sea water were lower than in the aerated sea water. Thus, even under comparatively adverse flow conditions, the mere presence of sulfide does not cause accelerated attack of copper-nickel alloys. These results can be compared with those of other workers who found that when both sulfide and oxygen were present in flowing sea water, the rates of corrosion of copper-nickel alloys were higher than those obtained in unpolluted aerated sea water. Under most of the experimental conditions examined, corrosion occurred fairly uniformly across the exposed surfaces of the specimens. However, in aerated sea water,...
Published Version
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