Examines the state-of-the-art in interpretation and analysis of electrochemical impedance data. 27 papers characterize the major areas of research and engineering application of electrochemical impedance techniques in corrosion. In six sections:
Corrosion process characterization and modeling
Applications of Kramers-Kronig transformations for evaluation the validity of data
Corrosion and its inhibition by either corrosion products or specially added inhibitors
Corrosion of aluminum and aluminum alloys
Corrosion of steel in soils and concrete
Evaluation of coatings on metal substrates.
The papers, written by many recognized contributors in the field, range from theoretical modeling to practical applications.
Kendig M., Scully J., Silverman D.
Impedance Spectra Calculated from Model Polarization Curves
Bertocci U., Ricker R.
Specific Aspects of Impedance Measurements in Low Conductivity Media
Chechirlian S., Keddam M., Takenouti H.
Analysis of EIS Data for Common Corrosion Processes
Greene H., Mansfeld F., Shih H., Tsai C.
The Effect of Parasitic Conduction Pathways on EIS Measurements in Low Conductivity Media
Kolman D., Stewart K., Taylor S.
The Characterization of the Coarsening of Dealloyed Layers by EIS and Its Correlation with Stress-Corrosion Cracking
Kelly R., Newman R., Young A.
Application of the Kramers-Kronig Relations in Electrochemical Impedance Spectroscopy
Agarwal P., Garcia-Rubio L., Orazem M.
Kramers-Kronig Transformation in Relation to the Interface Regulating Device
Gabrielli C., Keddam M., Takenouti H.
Validation of Experimental Data from High Impedance Systems Using the Kramers-Kronig Transforms
Dougherty B., Smedley S.
The Impedance Response of Film-Covered Metals
Cottis R., Turgoose S.
Interpreting Electrochemical Impedance Spectra from Segmented Electrode Arrangements
Dawson J., Eden D., Palmer J., Rothwell A.
Evolution of Electrochemical Impedance During Sealing of Porous Anodic Films on Aluminum
Ahmadun M., Dawson J., Thompson G.
Detection and Monitoring of Localized Corrosion by EIS
Lin S., Mansfeld F., Shih H., Wang Y., Xiao H.
Potentiodynamic Polarization and Electrochemical Impedance Spectroscopy for the Statistical Process Control of Aluminum Anodizing
Halliop E., Roberge P., Yousri S.
Electrochemical Impedance of a Buried Large Structure
Haruyama S., Sudo S.
Electrochemical Impedance and Harmonic Analysis Measurements on Steel in Concrete
Dawson J., Jafar M., John D.
Electrochemical Impedance of Coated Metal Undergoing Loss of Adhesion
Jeanjaquet S., Kendig M., Lumsden J.
Analyzing and Interpreting Electrochemical Impedance Spectroscopy Data from Internally Coated Steel Aerosol Containers
Handrich K., Martin J., Tait S., Tait W.
Study of Protection Mechanisms of Zinc-Rich Paints by Electrochemical Impedance Spectroscopy
Barajas R., Bastidas J., Feliu S., Morcillo M.
Paper ID: STP1188-EB