Enhanced the Resistance to Srb Corrosion of 316l Ss Via Adjusting the Addition of Cu and CE Elements DOI

Dazhuo Song,

Juntao Zou,

Lixing Sun

et al.

Published: Jan. 1, 2023

316L stainless steel (SS) is the key raw material for preparation of high-performance oil and gas pipelines , but even with excellent properties will be attacked by sulfate-reducing bacteria (SRB) corrosion. Excellent antibacterial effects have been obtained in other SS systems doping elements. However, current research on not comprehensive, quantitative analysis mechanism elements still unclear. In this paper, Cu Ce added were prepared vacuum induction melting. Then homogenization treatment combined hot rolling was used to improve structure segregation mechanical properties. Further, weight loss tests electrochemical conducted evaluate corrosion resistance SS, products morphology characterized clarify modified quantify The results indicate that microstructure after mainly austenite, increase content, Ce-rich phase segregates. inhibitory effect SRB can explained destructive ions cell membranes. On basis, adding a low content element permeability wall further enhance attack membrane. Two-step leads exhibit strength elongation. Segregation main reason affecting SS. optimal addition amount 0.18 wt%, elongation are 566.55 MPa 100.15%, respectively.

Language: Английский

Interpreting microbiologically influenced stress corrosion with machine learning and theoretical analysis DOI Creative Commons
Bo Liu, Boxin Wei, Cuiwei Du

et al.

Corrosion Communications, Journal Year: 2024, Volume and Issue: unknown

Published: Nov. 1, 2024

Language: Английский

Citations

0
Enhanced the Resistance to Srb Corrosion of 316l Ss Via Adjusting the Addition of Cu and CE Elements DOI

Dazhuo Song,

Juntao Zou,

Lixing Sun

et al.

Published: Jan. 1, 2023

316L stainless steel (SS) is the key raw material for preparation of high-performance oil and gas pipelines , but even with excellent properties will be attacked by sulfate-reducing bacteria (SRB) corrosion. Excellent antibacterial effects have been obtained in other SS systems doping elements. However, current research on not comprehensive, quantitative analysis mechanism elements still unclear. In this paper, Cu Ce added were prepared vacuum induction melting. Then homogenization treatment combined hot rolling was used to improve structure segregation mechanical properties. Further, weight loss tests electrochemical conducted evaluate corrosion resistance SS, products morphology characterized clarify modified quantify The results indicate that microstructure after mainly austenite, increase content, Ce-rich phase segregates. inhibitory effect SRB can explained destructive ions cell membranes. On basis, adding a low content element permeability wall further enhance attack membrane. Two-step leads exhibit strength elongation. Segregation main reason affecting SS. optimal addition amount 0.18 wt%, elongation are 566.55 MPa 100.15%, respectively.

Language: Английский

Citations

0