期刊
CORROSION SCIENCE
卷 199, 期 -, 页码 -出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.corsci.2022.110172
关键词
Carbon steel A; Hydrogen permeation B; SEM B; XRD B; Hydrogen absorption C
资金
- KPN project Environmental Cracking of Flexible Pipe Armour Wires, Research Council of Norway [280760]
- Research Council of Norway, Norway
- Equinor, Norway
- Shell, Norway
- Chevron, United States of America
- Petrobras, Brazil
- OKEA, Norway
- TechnipFMC, France
- NOV, Denmark
- Baker Hughes, United Kingdom
- 4Subsea, Norway
The hydrogen uptake of carbon steel wires in a corrosive environment was measured. It was found that the accumulation of retained carbide decreased the hydrogen uptake for most materials, except for the material with the lowest carbon content. Additionally, the hydrogen uptake increased with higher carbon content, possibly due to hydrogen trapping on ferrite-cementite interfaces.
The hydrogen uptake of five carbon steel wires exposed to a corrosive CO2CO(2)-H2S environment where protective film formation was not favorable was measured. The hydrogen uptakes decreased with the accumulation of retained carbide for most of the materials. It is assumed that hydrogen adsorbed on carbides at some distance from ferrite will not easily diffuse to the steel, hence giving the beneficial effect. This effect was not observed for the material with the lowest carbon content. Apart from this material, the hydrogen uptake increased with the carbon content, probably due to hydrogen trapping on ferrite-cementite interfaces.
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