The DC Corrosion software provides a modern set of tools for DC electrochemical corrosion testing. DC Corrosion offers a unique combination of flexibility, power, and ease of use. The software runs under… read more →
Nearly all metal corrosion occurs via electrochemical reactions at the interface between the metal and a electrolyte solution. A thin film of moisture on a metal surface forms the electrolyte… read more →
In Electrochemical Basis of Corrosion, we pointed out that Icorr cannot be measured directly. In many cases you can estimate it from current-versus-voltage data. You can plot a logarithmic current-versus-potential… read more →
When you pass current between two electrodes in a conductive solution, there are always regions of different potentials in the solution. Much of the overall change in potential occurs very… read more →
In order to make this Help file more readable, we have adopted some of Microsoft’s standard notational conventions and added some of our own. These are used throughout this Help… read more →
When you fit corrosion data to a model, the numerical result is generally a corrosion current. We are interested in corrosion rates in more useful terms, such as a corrosion… read more →
A current value of –1.2 mA can mean different things to people in different areas of electrochemistry. To a corrosion scientist it represents 1.2 mA of cathodic current. To an… read more →