What question did this study set out to answer?

The research aims to investigate the influence of oxygen on galvanic corrosion in drilling components made of different metallic alloys.

March 26, 2026

Galvanic Corrosion Challenges from Oxygen in Oil and Gas Drilling

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The research aims to investigate the influence of oxygen on galvanic corrosion in drilling components made of different metallic alloys.
Examined galvanic corrosion in a simulated drilling environment.
Investigated interactions between Cr-Mo low-alloy steel, Cr-Mn-N austenitic stainless steel, and Be-Cu alloy.
Assessed corrosion levels under both oxygen-rich and oxygen-free conditions.
Negligible corrosion observed in oxygen-free conditions.
Significant corrosion detected in the presence of oxygen due to increased cathodic reactions.
Flow enhanced corrosion effects but was less impactful without oxygen.

Resumen

Bottom hole assembly, located at the drill string’s lowest segment, comprises various components made from different metallic alloys joined at multiple connections. Galvanic corrosion between dissimilar metals during drilling is a concern as it impacts equipment reliability and lifespan. This study examines oxygen’s role in galvanic corrosion of Cr-Mo (chromium-molybdenum) low-alloy steel coupled with Cr-Mn-N (chromium-manganese-nickel) austenitic stainless steel and Be-Cu (beryllium-copper) alloy in simulated drilling environments. Results1 show negligible corrosion under oxygen-free conditions, but significant effects in oxygen presence due to enhanced cathodic reactions. Flow accelerates corrosion via mass transfer, though its impact is limited in the absence of oxygen.

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Galvanic Corrosion Challenges from Oxygen in Oil and Gas Drilling

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