Description Polarization Resistance calculates a corrosion rate from polarization resistance data (a small-signal I-versus-E curve near Eoc). See the Review of LPR if you’re not familiar with polarization resistance experiments… read more →
The Smooth Data command, in the Common Tools menu, is used in cases where the acquired data is less than ideal. There are some cases where exterior noise enters the… read more →
The Transform Axes dialog box allows you to make some changes to the style of the current chart axes. Voltages In the Voltages area, you specify whether voltages should be… read more →
The Add E Constant command offsets the active trace by a user-specified voltage. This is useful for displaying data versus a different reference electrode (for example, NHE) than was actually… read more →
The Add I Constant command is used to offset the active trace by a user-specified current. To use this command: Make the trace you wish to offset the Active trace.… read more →
The Linear Fit command, in the Common Tools menu, performs a linear least-squares fit on a user-defined region of data, and adds the resulting line as a trace on the… read more →
The Post-Run iR Correction dialog box allows youto correct for uncompensated resistance in the acquired data. 1.Make the trace on which to fit a line the Active Trace. Do this… read more →
Run the potentiodynamic standard technique by selecting Experiment > DC Corrosion > Potentiodynamic from the Framework™ menu bar. This initiates the following sequence of events: Framework creates a Runner window, and the Potentiodynamic.exp script… read more →
The runtime control consist of three buttons and a Curve List pull-down control. The three control buttons are familiar to any user of the single-cell DC Corrosion experiments, although in… read more →
Here is the Multiplexed Cyclic Polarization Setup dialog box complete with its default parameters. Pstat, Multiplexer Select your Pstat and Multiplexer using the labeled radio buttons. You may select only… read more →