This paper presents experimental results on porosity and pore size distribu
tion of fly ash and silica fume modified cement pastes and mortars using me
rcury intrusion porosimetry. It is found that replacement of cement by fly
ash increases the porosity but decreases the average pore size of the paste
s at the ages of 28 and 56 days. The additional replacement of cement by up
5% silica fume did not significantly change the pore size distribution and
porosity of either the plain cement pastes or the fly ash cement pastes. I
nterfacial porosity, however, was significantly influenced by incorporating
fly ash and silica fume in the mortars. The interfacial porosity was much
reduced when fly ash and silica fume were incorporated. Compared with the p
orosity and average pore size of the pastes and mortars, the interfacial po
rosity better explains the results of a chloride diffusion test of the fly
ash and silica fume concrete in most cases. However, for the concrete with
55% fly ash replacement at 28 days, the drop of ionic concentration of the
pore solution seems to be more responsible for the low result of coulomb pa
ssed in the test.