Add to ORKGThe behaviour of oxide films formed on Ni- and Fe-based alloys in different environments has been studied electrochemically. The aim was to study the effect of pH, temperature and Cr content of the alloy on the protectiveness of the oxide film using a wide combination of electrochemical techniques: conventional linear sweep cyclic voltammetry, rotating ring-disc voltammetry, electrochemical impedance spectroscopy (EIS), contact electric resistance technique (CER) and contact electric impedance technique (CEI). The other goal was to develop modelling tools to describe and predict the oxide film behaviour in different conditions. Increasing pH has been found to decrease oxidation rates in both the passive and transpassive regions. Increasing ...
This paper describes an extension of the mixed-conduction model to predict quantitatively the electr...
This paper describes an extension of the mixed-conduction model to predict quantitatively the electr...
The processes in the potential region corresponding to transpassive dissolution of Ni–Cr alloys (10 ...
The behaviour of oxide films formed on Ni- and Fe-based alloys in different environments has been st...
This paper discusses the application of the recently introduced mixed-conduction model (MCM) to desc...
This paper discusses the application of the recently introduced mixed-conduction model (MCM) to desc...
This paper describes the electrochemical behavior of oxide films formed on pure Ni, pure Cr, and Ni-...
A quantitative approach to evaluate the effect of the passive film on the corrosion resistance of fe...
A quantitative approach to evaluate the effect of the passive film on the corrosion resistance of fe...
The aim of this two-part work is to propose a model for the corrosion mechanism of ferrous alloys in...
The Mixed-Conduction Model (MCM) has been adapted to obtain the main kinetic and transport parameter...
The Mixed-Conduction Model (MCM) has been adapted to obtain the main kinetic and transport parameter...
The passivation and the transpassive dissolution of Fe–Cr alloys (12% and 25% Cr) was studied with a...
The passivation and the transpassive dissolution of Fe–Cr alloys (12% and 25% Cr) was studied with a...
The application of a general model for the transpassive dissolution mechanism of binary Ni-based all...
This paper describes an extension of the mixed-conduction model to predict quantitatively the electr...
This paper describes an extension of the mixed-conduction model to predict quantitatively the electr...
The processes in the potential region corresponding to transpassive dissolution of Ni–Cr alloys (10 ...
The behaviour of oxide films formed on Ni- and Fe-based alloys in different environments has been st...
This paper discusses the application of the recently introduced mixed-conduction model (MCM) to desc...
This paper discusses the application of the recently introduced mixed-conduction model (MCM) to desc...
This paper describes the electrochemical behavior of oxide films formed on pure Ni, pure Cr, and Ni-...
A quantitative approach to evaluate the effect of the passive film on the corrosion resistance of fe...
A quantitative approach to evaluate the effect of the passive film on the corrosion resistance of fe...
The aim of this two-part work is to propose a model for the corrosion mechanism of ferrous alloys in...
The Mixed-Conduction Model (MCM) has been adapted to obtain the main kinetic and transport parameter...
The Mixed-Conduction Model (MCM) has been adapted to obtain the main kinetic and transport parameter...
The passivation and the transpassive dissolution of Fe–Cr alloys (12% and 25% Cr) was studied with a...
The passivation and the transpassive dissolution of Fe–Cr alloys (12% and 25% Cr) was studied with a...
The application of a general model for the transpassive dissolution mechanism of binary Ni-based all...
This paper describes an extension of the mixed-conduction model to predict quantitatively the electr...
This paper describes an extension of the mixed-conduction model to predict quantitatively the electr...
The processes in the potential region corresponding to transpassive dissolution of Ni–Cr alloys (10 ...