1. Efficient prediction of corrosion behavior in ternary Ni-based alloy systems: Theoretical calculations and experimental verification.
- Author
-
Xiao, Xuelian, Chang, Keke, Xu, Kai, Lou, Ming, Wang, Liping, and Xue, Qunji
- Subjects
TERNARY alloys ,ELECTROLYTIC corrosion ,BINARY metallic systems ,CHROMIUM-cobalt-nickel-molybdenum alloys ,ALUMINUM oxide ,DATABASES - Abstract
• The CALPHAD approach simplifies the Pourbaix diagram construction process. • Pourbaix diagrams for ternary and quaternary systems with two phases in aqueous solutions can be rapidly constructed. • The calculated Pourbaix diagrams were successfully used to predict the corrosion trend of different Ni-based alloys. • The effect of Si/Y addition and Ni 5 Y precipitation on the structural evolution of the passive film was studied. • The accuracy of the calculated Pourbaix diagrams is verified by key experiments. Pourbaix diagrams are calculated to describe electrochemical processes for alloys in aqueous solution. With the multi-component differentiation of alloy systems, the construction of Pourbaix diagrams is facing challenges, especially for non-single-phase alloy systems. In this study, the simultaneous construction of phase diagrams and Pourbaix diagrams were implemented for predicting the evolution of the phases in the immune and passive regions. The CALPHAD (CALculation of PHAse Diagram) approach was used to quickly access the Gibbs free energies of various phases and the chemical potential of the elements in the phases from the thermodynamic database of the Ni-Si-Al-Y system. The corrosion behavior of two typical Ni-Al-Si and Ni-Al-Y systems was investigated. Si and Y were added to Ni-based alloys to produce the solid solutions L1 2 Ni 3 (Al,Si) and L1 2 Ni 3 Al + Ni 5 Y, respectively. Calculations showed that NiO and Al 2 O 3 make up the passive area of the Ni 3 Al 1 alloy. The introduction of SiO 2 and Y(OH) 3 in the passive region separately helped to minimize the alloys' susceptibility to corrosion. However, Si reduced the thermodynamical possibility of NiO formation in the passive film, and the addition of Y caused extreme galvanic corrosion. Experiments on Ni-based alloys validated the results through electrochemical corrosion. It was also discovered that the presence of Ni 5 Y produced galvanic corrosion and that Si reduced the oxide in the passive film, causing pitting corrosion. The corrosion prediction of the quaternary alloys indicates that the solid solution of Si in Ni 5 Y reduces the galvanic corrosion effect and the dissolution of passive film. The current work demonstrates that phase diagrams and Pourbaix diagrams may be efficiently and accurately predicted using a well-constructed thermodynamic database, which has major implications for future studies on the corrosion behavior of multi-component alloys. [Display omitted] [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF