Corrosion Mechanism of Haynes 230 Alloy with Ni Crucible in MgCl₂–KCl
- Organization:
- The Minerals, Metals and Materials Society
- Pages:
- 10
- File Size:
- 174 KB
- Publication Date:
- Mar 1, 2017
Abstract
The long-term corrosion behavior of Haynes 230 (H230) alloy in MgCl2–KCl eutectic salt was evaluated at 1273 K for 500 h in Ni crucible in argon gas. The results showed H230 alloy has good corrosion resistance. In addition, corrosion was noted to occur by depletion of Cr, which was deposited on the Ni crucible. Based on the calculation of Gibbs energy of Ni-Cr alloy and exchange current density of Cr in MgCl2–KCl, the Tafel model was constructed to investigate the corrosion potential and rate. The galvanic corrosion can be explained as the predicted results were in agreement with the experimental data.
Citation
APA: (2017) Corrosion Mechanism of Haynes 230 Alloy with Ni Crucible in MgCl₂–KCl
MLA: Corrosion Mechanism of Haynes 230 Alloy with Ni Crucible in MgCl₂–KCl. The Minerals, Metals and Materials Society, 2017.