Abstract: The corrosion structure, grain size and boundary distribution of aluminum anode foil for low voltage electrolytic capacitor were analyzed and investigated based on observation of scanning electronic microscope and orientation mapping with electron back scattering diffraction technology. It is indicated that large corrosion holes or channels will appear frequently along the grain boundaries, especially along the high angle grain boundaries, which lead to the inhomogeneity of corrosion structure and reduction of specific capacity. The higher defect density and corresponding local concentration of corrosion current density around grain boundaries induce the preferred corrosion of the boundaries. Increasing the boundary density can reduce the segregation of impurity atoms and the distribution inhomogeneity of current density. Therefore, it is possible to increase the specific capacity by means of reducing the grain size under some electrochemistry corrosion conditions.

Key words: electrolytic capacitor; aluminum foil; grain boundary; corrosion structure