In this study the chromium nitride (CrN) films deposited on (100) silicon wafer by using cathodic arc plasma technique were stripped in alkaline electrolyte via electrochemical method. Various current densities and electrolyte concentrations were used to investigate the influence on stripping time and changes of the film thickness. The changes of the films thickness during stripping process were investigated by field-emission scanning microscopy. The thickness of the remained films decreased as the current density increased. Times required to complete remove the nitride films were inverse proportional to the current density, but irrespective of the concentration of electrolyte. The relationship between the thickness and stripping time at various current densities and KOH concentrations was analyzed using a mathematical model.