This is a Potentiodynamic Setup dialog box. Initial E Starting point for the potential sweep during data-acquisition. The allowed range is ±10 volts with a resolution of 1/8 mV. Its… read more →
The data file from a Potentiostatic experiment is analyzed using the Potentiostatic.Gscript analysis package provided with the DC Corrosion software. Potentiostatic experiments are usually used to obtain quantitative information. The primary… read more →
Run the Potentiostatic standard technique by selecting Experiment>DC Corrosion>Potentiostatic from the Framework™ menu bar. This initiates the following sequence of events: The Framework creates a Runner window, and the Potentiostatic.exp… read more →
The potentiostatic technique examines the behavior of a system when held under a constant potential control. The graphical output of the experiment is a plot of current vs. time. Analysis… read more →
Here is a Potentiostatic Setup dialog box complete with its default parameters. Initial E The potential prior to any potential step. The allowed range is ±10 V with a resolution… read more →
The Polarization Resistance standard technique is run by selecting Experiment, DC Corrosion, Polarization Resistance from the Framework™ menu bar. This initiates the following sequence of events: A Runner window is… read more →
The polarization resistance technique is a non-destructive technique used to obtain a rapid estimate of the corrosion rate of a metal in a solution. Cell current readings are taken during… read more →
The data file from a Galvanodynamic experiment normally is analyzed by the Galvanodynamic.Gscript analysis script. Use Galvanodynamic experiments to obtain qualitative or quantitative information. The Galvanodynamic data can be used… read more →
Run the Galvanodynamic standard technique by selecting Experiment>DC Corrosion>Galvanodynamic from the Framework™ menu bar. This initiates the following sequence of events: Framework creates a Runner window, and the Galvanodynamic.exp script… read more →
The Galvanodynamic technique generates current-vs.-voltage curves under galvanostatic control. It is not only the galvanostatic equivalent of potentiodynamic, but can also generate data analogous to Tafel and polarization data. Its… read more →