https://doi.org/10.1351/goldbook.C01358
The @A00297@ transferred per unit time at a specified surface. Using Faraday's law, the @C01351@ rate, \(\nu_{\mathrm{cor}}\), can be formally expressed as an @E01927@ which at the @C01357@ is called the corrosion current, \(I_{\mathrm{cor}}\), e.g. for the anodic @D01806@ of one component of a material with \(\nu_{\mathrm{cor}}\) in \(\text{mol s}^{-1}\) and \(I_{\mathrm{cor}}\) in \(\mathrm{A}\) one obtains \(I_{\mathrm{cor}}=n\ F\ \nu_{\mathrm{cor}}\), \(n\) being the @C00993@ of the @E01960@ and \(F\) the @F02325@.