Skip to main navigation
Skip to search
Skip to main content
VTT's Research Information Portal Home
Search content at VTT's Research Information Portal
Home
Profiles
Research output
Projects
Datasets
Research units
Research Infrastructures
Activities
Prizes
Press/Media
Impacts
Transpassive dissolution of ferritic steels in a molten salt electrolyte
Iva Betova
, Martin Bojinov
*
, Ivan Kanazirski
, Tzvety Tzvetkoff
*
Corresponding author for this work
VTT Technical Research Centre of Finland
VTT (former employee or external)
University of Chemical Technology and Metallurgy
Research output
:
Contribution to journal
›
Article
›
Scientific
›
peer-review
Overview
Fingerprint
Fingerprint
Dive into the research topics of 'Transpassive dissolution of ferritic steels in a molten salt electrolyte'. Together they form a unique fingerprint.
Sort by
Weight
Alphabetically
Keyphrases
Electrolyte
100%
Ferritic Steel
100%
Transpassive Dissolution
100%
Parallel Pathways
100%
Molten Salt Electrolyte
100%
Steady State
50%
Overall Process
50%
Fe(III)
50%
Kinetic Parameters
50%
Reaction Pathway
50%
Impedance Spectra
50%
Alloy Composition
50%
Impedance Measurement
50%
Phosphoric Acid
50%
Potential Curves
50%
Oxidative Dissolution
50%
Small Amplitude
50%
Cr(VI)
50%
Cr(IV)
50%
Transpassive
50%
Intermediate Species
50%
Surface Intermediates
50%
Ammonium Phosphate
50%
Voltammetric Measurement
50%
Simplified Kinetic Model
50%
Transient Method
50%
Surface Kinetics
50%
INIS
dissolution
100%
electrolytes
100%
ferritic steels
100%
molten salts
100%
surfaces
75%
kinetics
75%
impedance
50%
interactions
25%
steady-state conditions
25%
oxidation
25%
alloys
25%
amplitudes
25%
spectra
25%
curves
25%
phosphoric acid
25%
polarography
25%
Chemistry
Molten Salts
100%
Ferritic Stainless Steel
100%
Reaction Path
50%
Pharmacokinetics
50%
Chemical Kinetics Characteristics
50%
Phosphoric Acid
50%
Material Science
Ferritic Steel
100%
Surface (Surface Science)
100%
Electrical Impedance
33%
Chemical Engineering
Phosphoric Acid
100%
Chemical Kinetics Characteristics
100%