The passivation mechanism of negative plates has been investigated by
means of linear sweep voltammetry and scanning electron microscopy. It
is found that the reduction peak of PbSO4 is split into two peaks on
a seriously passivated negative plate. This is attributed to the reduc
tion of PbSO4 crystals of different sizes. The reduction rate of the n
egative plate depends on the diffusion of SO42- from the depth of micr
opores to the bulk solution. The narrow and long microporous passagewa
ys and the big PbSO4 crystals in the active mass result in serious sul
fation of the negative plate. The effects of the active mass structure
and the additive in the solution are also discussed.